DOCSIS 3.1. Mini-Circuits PRODUCT GUIDE. The Next Generation Technology for CATV and Broadband.

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1 DOCSIS 3.1 PRODUCT GUIDE The Next Generation Technology for CATV Broadb finding new ways setting higher stards DPG-15

2 Introduction The Industry s Widest Variety of RF/IF Microwave Products for the Next Generation of Broadb Applications As consumer dem for higher data capacity continues to intensify, network operators deploying optical hybrid fiber-coaxial (HFC) infrastructure continue to push the limits of their equipment to operate under the new, DOCSIS 3.1 stard. Competition at the operator level is driving rapid qualification development of new equipment, with testing certification for deployment expected to exp in the very near term. To meet the new stard accelerate time to market, program managers, system designers purchasing managers in the broadb space need components with tightly specified performance high reliability with value pricing fast delivery. Mini-Circuits is deeply committed to supporting equipment manufacturers operators in the broadb market as this transition occurs. Many of our components are already being successfully designed into DOCSIS 3.1 applications from head-end infrastructure to customer-premises equipment. In support of this transition to DOCSIS 3.1, Mini-Circuits has exped our product portfolio to include a variety of new models developed especially to meet the unique requirements of this stard. We re very pleased to present our product offering for the next generation of CATV Broadb applications in our new DOCSIS 3.1 Product Guide. Inside you ll find detailed information on a wide range of RF components from passive devices including transformers, couplers, splitter/combiners to active elements including amplifiers, equalizers more all designed carefully specified to meet DOCSIS 3.1 stards. We hope this material gives you a convenient reference to make an informed decision as you evaluate parts for your design. With the industry s broadest variety of off-the-shelf RF/IF microwave products, chances are, we have you covered, but even if you don t see what you need here, we re always here to support you. We invite you to get in touch with our applications team (apps@minicircuits.com) to discuss any questions or special requirements you may have. Our engineers can design custom components to meet your exact requirements for low cost with exceptionally fast turnaround times. Thank you for your interest in Mini-Circuits our extensive offering of RF products for the most advanced implementation of cable network technology to date. We hope this information gives you a valuable tool in your search for the right components to make your project a success. Sincerely Ted Heil President Mini-Circuits Performance You Can Count On: Precision Test Measurement of 75Ω Products Meeting the new stard for data over cable systems dems components that perform reliably to meet the precise requirements of your design. Mini-Circuits has long been highly regarded in the industry for the sophistication of our test measurement techniques, our expertise in this area enables us to qualify the performance of our products for broadb cable network applications to a superior level of accuracy. Characterizing RF products for use in cable broadb networks poses the unique problem of how to perform test measurement of 75Ω components using the industrystard 5Ω vector network analyzer equipment. The accuracy precision of this testing depends entirely on the measurement method employed. Two traditional methods for performing these measurements are building matching circuits for each DUT into test fixtures back-to-back transformer measurement. Building matching circuits to compensate for impedance mismatch could require dozens of different matching circuits to test different components, which makes it both costly impractical. Furthermore, compensating for the losses of matching circuits undermines measurement accuracy. At the same time, back-to-back transformer measurement is dependent on the matching losses of the transformers used therefore only provides an approximation of the real performance of the DUT. Fortunately, in recent years, the RF industry introduced vector network analyzers capable of performing virtual impedance conversion or Z-conversion. Measurement with virtual impedance conversion avoids the need for test fixtures with matching circuits, eliminating the problem of compensating for loss. The fixture is used with 5Ω at all ports, calibration is performed using a 5Ω calibration kit, then auto port extension Z-conversion are applied. This method allows precision measurement of components with 75Ω impedance is especially effective with passive components such as splitters, couplers transformers. By using virtual impedance conversion to characterize the performance of our 75Ω product portfolio, Mini-Circuits is able to provide our customers with tight performance specifications for every product we produce. In the broadb cable market where high dem competition are driving requirements for high system performance speed to market, designers need parts they can rely on to meet those requirements. As you evaluate parts for your design, it s important to consider how suppliers are qualifying performance given the special challenges of test measurement for 75Ω products. With Mini-Circuits, you can know we re using the most advanced tools the most accurate measurement methods available, so you can have confidence in the performance of our products. For more information about test measurement at Mini-Circuits, we invite you to reach out to us. Our engineers are ready to discuss any questions or special requirements you may have. We re here to support you! Contact: Mini-Circuits Applications apps@minicircuits.com 2 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 3

3 Contents Page No Introduction...2 Precision Test Measurement of 75Ω Products... 3 Table of Contents Docsis 3.1 Block Diagram AMPLIFIERS Amplifiers Introduction Model Number Gain Input RL Min Freq. MHz Max Freq. MHz PGA PGA-16R PHA PHA MGVA MGVA MPGA COUPLERS Couplers Introduction Model Number Coupling Min Freq Max Freq TCD X TCD X TCD X TCD X TCD X TCD TCD--4-75X DBTC DBTC L DBTC DBTC L DBTC--4-75L ADC ADC ADC ADC ADC ADC TCD-9-1W-75X LRDC-1-2W DIPLEXERS Diplexers Introduction Model Number Low Pass B High Pass B Min MHz Max MHz Min MHz Max MHz DPB DC DPB DC DPB DC DPB DC SPLITTER/COMBINERS Splitters/Combiners Introduction Model Number N-Way Min Freq Max Freq ADP Way ADP M+ 2-Way ADP Way 5 54 CDP Way SYPS Way CDP-2-122W-75X+ 2-Way TCP X+ 2-Way SBTCJ Way SYPS-3-12W Way SCA Way SCPA Way SCP Way ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 5 Page No SWITCHES Switches Introduction Model Number Switch Type Min Freq. MHz Max Freq. MHz JSW2-33DR-75+ SPDT JSW2-33HDR-75+ SPDT JSW3-23DR-75+ SP3T JSW4-23DR-75+ SP4T JSW5-23DR-75+ SP5T JSW6-23DR-75+ SP6T TRANSFORMERS Transformers Introduction Model Number Impedance Ratio Min Freq. MHz Max Freq. MHz ADTL ADTL TC1-1-13M-75X TC G2A TC X (1Ω to 75Ω) TC1-1T-75X TC4-6T-75X TRS ADTL TC G TRS TX TEST ACCESSORIES Test Accessories Introduction Matching Pads Model Number Impedance Ω Min Freq. MHz Max Freq. MHz BMP /75 DC 1 BMP-575R+ 5/75 DC 1 UNMP /75 DC 3 11 UNMP /75 DC 3 11 Test Cables Model Number Connector Type Min Freq. MHz Max Freq. MHz CBL-2FM-75+ F DC 3 12 CBL-3 FM-75+ F DC 3 12 CBL-6FM-75+ F DC 3 13 CBL-1MFM-75+ F DC 3 13 USB Power Sensors Model Number Dynamic Min Freq. MHz Max Freq. MHz PWR-2.5GHS-75-3 to + m CONTROL PRODUCTS Control Products Introduction Voltage Variable Attenuators Model Number Max Attenuation Min Freq. MHz Max Freq. MHz EVA EVA Voltage Variable Equalizers Model Number Max Attenuation Min Freq. MHz Max Freq. MHz VAEQ DOCSIS is a registered trademark of CableLabs. Neither Mini-Circuits, nor the DOCSIS 3.1 Product Guide, nor any of the products presented therein are affiliated with or endorsed or sponsored by the above referenced trademark. All Products are RoHS Compliant The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications.

4 MMIC AMPLIFIERS Our selection of amplifiers for CATV broadb systems provides frequency ranges supporting both upstream downstream bwidth requirements for the DOCSIS 3.1 stard. These amplifiers provide outsting dynamic range gain flatness, enabling excellent system performance across broad bwidths. Manufactured using E-PHEMT InGap HBT technology on GaAs, they come in packages as small as SOT-89 with designed-in ESD protection excellent unit-to-unit repeatability. FEATURES Flat Gain High Dynamic Low Noise Discrete Dual-Matched Models Upstream Downstream Bs Tiny Size 6 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 7

5 75Ω Flat Gain, High Dynamic Monolithic Amplifier Product High IP3, 37 m typ. at.5 GHz Gain, 17.4 typ. at.5 GHz Product High Pout, P m typ. at.5 GHz Low High Noise IP3, 37 Figure, m 3.1 typ. at.5 at.5 GHz GHz Gain, 17.4 typ. at.5 GHz High Pout, P m typ. at.5 GHz Low Noise Figure, 3.1 at.5 GHz Typical Applications CATV CASE STYLE: DF782 GPON Typical MOCA Applications DBS CATV GPON MOCA DBS General Description PGA (RoHS compliant) is an advanced wideb amplifier fabricated using E-PHEMT* technology offers extremely high dynamic range over a broad frequency range with low noise figure flat General gain. In Description addition, the PGA has excellent input output return loss over a broad frequency range. PGA Lead finish (RoHS is SnAgNi. compliant) It has is an repeatable advanced performance wideb amplifier from lot fabricated to lot is using enclosed E-PHEMT* in a SOT-89 technology for offers very extremely good thermal high dynamic performance. range over a broad frequency range with low noise figure package flat gain. In addition, the PGA has excellent input output return loss over a broad frequency simplified range. Lead schematic finish is SnAgNi. pin It has description repeatable performance from lot to lot is enclosed in a SOT-89 package for very good thermal performance. simplified schematic pin description Function Pin Number Description GHz CASE STYLE: DF782 RF IN 1 RF input pin. This pin requires the use of an external DC blocking capacitor chosen for the frequency of operation. Function Pin Number RF output bias pin. DC voltage is Description present this pin; therefore a DC blocking capacitor is necessary for proper operation. An RF choke is needed to feed DC bias RF-OUT DC-IN 3 without RF input loss pin. of This RF signal pin requires due to the the use bias of connection, an external as DC shown blocking in Recommended capacitor chosen Application for RF IN 1 the frequency Circuit, of Fig. operation. 2 Connections RF output to ground. bias pin. Use DC via voltage holes is as present shown on in this Suggested pin; therefore Layout a DC for PCB blocking Design GND 2,4 RF-OUT DC-IN 3 to capacitor reduce ground is necessary path inductance for proper operation. for best performance. An RF choke is needed to feed DC bias without loss of RF signal due to the bias connection, as shown in Recommended Application Circuit, Fig. 2 *Enhanced mode pseudomorhic High Electron Mobility Transistor. GND 2,4 Connections to ground. Use via holes as shown in Suggested Layout for PCB Design to reduce ground path inductance for best performance. *Enhanced mode pseudomorhic High Electron Mobility Transistor. Monolithic E-PHEMT MMIC Amplifier, 75Ω 5.V (1), unless noted, 75Ω 5.V (1), unless noted PGA Condition (GHz) Min. Units GHz Condition (GHz) Min. Units Gain GHz Gain Input Return Loss Input Return Loss Output Return Loss Output Return Loss Reverse Isolation Output compression m Reverse Isolation Output compression m Output IP m Output IP m Output IP2 (2) m Output IP2 (2) m Noise Figure Noise Figure Device Operating Voltage (Vd) V Device Operating Current ma Device Current Variation vs. Temperature (4) μa/ C Device Device Operating Current Voltage Variation (Vd) vs Voltage ma/mv V Thermal Resitance Device Operating Current (3) C/W ma (1) Measured on Mini-Circuits Characterization Eval board TB-67+. See Characterization Test Circuit (Fig. 1) Device (2) Current Variation vs. Temperature Output IP2 measured at sum frequency of the two tones (f meas= f1+f2). 97 μa/ C Device (3) Junction Current to ground Variation lead. vs Voltage.5 ma/mv (4) Thermal (Current Resitance at 85 C - Current at -45 C)/13 76 C/W (1) Measured on Mini-Circuits Characterization Eval board TB-67+. See Characterization Test Circuit (Fig. 1) Histogram USL (2) Output IP2 measured at sum frequency of the two tones (f meas= f1+f2). (3) Junction to ground lead. 7 (4) (Current at 85 C - Current at -45 C)/13 6 Absolute 5 Histogram USL Ratings Operating Temperature (ground lead) Absolute -4 C to 85 C Operating Current at 5.V Ratings 17 ma 3 Operating Power Dissipation Temperature (ground lead) -4 C.85 to 85 C W Storage Temperature -65 C to 15 C Storage Temperature C m to (5 15 C minutes) Input Power (CW) m (5 minutes) Input Electrical Power maximum (CW) ratings are not intended for continuous normal operation. +14 m (continuous) Operating Current at 5.V m (continuous) 17 ma DC Voltage on Pin 3 Power Dissipation 6 V.85 W 1 ma DC Voltage on Pin 3 6 V ma Electrical maximum ratings are not intended for continuous normal operation. 8 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 9

6 75Ω Flat Gain, High Dynamic Monolithic Amplifier Product High IP3, 34 m typ. Gain, 17.9 typ. Product High Pout, P m typ. Excellent High IP3, gain 34 m flatness, typ. ±.1 typ. Gain, 17.9 typ. High Pout, P m typ. Excellent gain flatness, ±.1 typ. Typical Applications CATV Return path Typical Applications CATV Return path 5-25 MHz CASE STYLE: DF782 CASE STYLE: DF782 Monolithic E-PHEMT MMIC Amplifier Electrical Specifications (1) at 25 C, 75Ω 5.V, unless noted Ω PGA-16R-75+ Condition Min. Units Condition Min. Units 5 25 MHz 5 25 MHz Gain Gain Gain Flatness (±) Gain Flatness (±) Input Return Loss Input Return Loss Output Return Loss Output Return Loss Reverse Isolation Reverse Isolation Output 1 compression m Output 1 compression Output IP m m Output Output IP3 IP2 (2) m m General Description PGA-16R-75+ (RoHS compliant) is an advanced wideb amplifier fabricated using E-PHEMT* technology offers extremely high dynamic range over a broad frequency range with low noise figure General flat gain. Description In addition, the PGA-16R-75+ has excellent input output return loss over a broad frequency PGA-16R-75+ range. (RoHS Lead finish compliant) is SnAgNi. is an advanced It has repeatable wideb performance amplifier fabricated from lot to using lot E-PHEMT* is enclosed technology package offers extremely for very good high thermal dynamic performance. range over a broad frequency range with low noise figure in a SOT-89 flat gain. In addition, the PGA-16R-75+ has excellent input output return loss over a broad simplified frequency range. schematic Lead finish is pin SnAgNi. description It has repeatable performance from lot to lot is enclosed in a SOT-89 package for very good thermal performance. simplified schematic pin description Output IP2 (2) m Noise Figure Noise Figure Device Operating Voltage (Vd) V Device Device Operating Operating Voltage Current (Vd) ma V Device Device Operating Current Current Variation vs. Temperature (4) μa/ C ma Device Device Current Current Variation Variation vs. Temperature vs Voltage (4) 97.5 ma/mv μa/ C Device Thermal Current Resitance Variation (3) vs Voltage.5 76 ma/mv C/W (1) Measured on Mini-Circuits Characterization Test board TB See Characterization Test Circuit (Fig. 1) Thermal (2) Output Resitance IP2 measured at sum frequency of the two tones (f meas= f1+f2). (3) Junction to ground lead. (1) (4) Measured (Current on at Mini-Circuits 85 C - Current Characterization at -45 C)/13Test board TB See Characterization Test Circuit (Fig. 1) 76 C/W (2) Output IP2 measured at sum frequency of the two tones (f meas= f1+f2). (3) Junction to ground lead. (4) (Current at 85 C - Current at -45 C)/13 Function Pin Number Description RF IN 1 RF input pin. This pin requires the use of an external DC blocking capacitor chosen for the frequency of operation. Function Pin Number RF output bias pin. DC voltage is Description present this pin; therefore a DC blocking capacitor is necessary for proper operation. An RF choke is needed to feed DC bias RF-OUT DC-IN 3 RF input pin. This pin requires the use of an external DC blocking capacitor chosen for RF IN 1 without loss of RF signal due to the bias connection, as shown in Recommended Application Circuit, Fig. 2 the frequency of operation. RF output bias pin. DC voltage is present on this pin; therefore a DC blocking Connections to ground. Use via holes as shown in Suggested Layout for PCB Design GND 2,4 capacitor is necessary for proper operation. An RF choke is needed to feed DC bias RF-OUT DC-IN 3 to reduce ground path inductance for best performance. without loss of RF signal due to the bias connection, as shown in Recommended Application Circuit, Fig. 2 *Enhanced mode pseudomorhic High Electron Mobility Transistor. GND 2,4 Connections to ground. Use via holes as shown in Suggested Layout for PCB Design to reduce ground path inductance for best performance. *Enhanced mode pseudomorhic High Electron Mobility Transistor. Absolute Absolute Ratings Operating Temperature (ground lead) -4 C to 85 C Ratings Storage Temperature -65 C to 15 C Operating Operating Temperature Current at (ground 5.V lead) -4 C 17 to 85 C ma Storage Power Temperature Dissipation -65 C to C W Operating +23 m (5 minutes) Input Power Current (CW) at 5.V 17 ma +14 m (continuous) Power Dissipation DC Voltage on Pin 3.85 W 6 V +23 m (5 minutes) Input Permanent Power (CW) damage may occur if any of these limits are exceeded. +14 m (continuous) Electrical maximum ratings are not intended for continuous normal operation. DC Voltage on Pin 3 6 V Histogram Histogram ma ma USL USL Electrical maximum ratings are not intended for continuous normal operation. 1 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 11

7 .5-3 GHz Surface Mount Dual Matched MMIC Amplifier.5-3 GHz GHz Product Two matched amplifiers in one package Product High IP3, +44 m at.8 GHz in push-pull configuration Two matched amplifiers in one package High IP2, +78 m at.8 GHz in push-pull configuration High IP3, +44 m at.8 GHz in push-pull configuration Gain, 16 typ. at.8 GHz High IP2, +78 m at.8 GHz in push-pull configuration CASE STYLE: DL1 P1, +22 m typ. at.8 GHz Gain, 16 typ. at.8 GHz Low noise figure, 1.8 typ. at.8 GHz May be used as replacement for WJ AH11 a,b CASE STYLE: DL1 P1, +22 m typ. at.8 GHz Low noise figure, 1.8 typ. at.8 GHz Typical May be used Applications as replacement for WJ AH11 a,b CATV Typical Applications FTTH CATV Optical networks FTTH Base station infrastructure Optical networks Balanced amplifiers Base station infrastructure 75 Ohm push-pull balanced amplifiers Balanced amplifiers 75 Ohm push-pull balanced amplifiers General Description PHA-11+ is a dual matched wideb high dynamic range amplifier. Enclosed in a 6. x 4.9 mm MCLP General Description plastic package. PHA-11+ is fabricated using E-PHEMT* technology is ideal for use in balanced PHA-11+ is a dual matched wideb high dynamic range amplifier. Enclosed in a 6. x 4.9 mm MCLP push-pull amplifiers. plastic package. PHA-11+ is fabricated using E-PHEMT* technology is ideal for use RF OUT in balanced RF OUT & DC IN GND GND & DC IN push-pull amplifiers simplified schematic (each of A1, A2) pin description RF OUT RF OUT & DC IN GND GND & DC IN simplified schematic (each of A1, A2) pin description RF IN RF IN RF IN RF IN A1 A1 A2 A2 RF OUT DC IN RF OUT DC IN RF OUT DC IN RF OUT DC IN Function Pin Number Description RF input pin. This pin requires the use of an external DC blocking capacitor chosen for the frequency Function RF IN, A1 Pin Number 1 of operation. (see Application circuit, Fig 2.) Description RF RF output input pin. This bias pin pin. requires DC voltage the use is present of an external on this DC pin; blocking therefore capacitor a DC blocking chosen capacitor for the frequency is necessary RF-OUT RF IN, A1 DC-IN, 1 8 of operation. for proper (see operation. Application An RF circuit, choke Fig is 2.) needed to feed DC bias without loss of RF signal due to the A1 bias RF output connection, bias pin. shown DC in voltage Recommended is present Application this pin; Circuit, therefore Fig a 2DC blocking capacitor is necessary RF-OUT DC-IN, 8 RF input for proper pin. This operation. pin requires An RF the choke use of is an needed external to DC feed blocking DC bias capacitor without loss chosen of RF for signal the frequency due to the RF IN, A1 A2 4 of bias operation. connection, (see as Application shown in Recommended circuit, Fig 2.) Application Circuit, Fig 2 RF RF output input pin. This bias pin pin. requires DC voltage the use is present of an external on this DC pin; blocking therefore capacitor a DC blocking chosen capacitor for the frequency is necessary RF-OUT RF IN, A2 DC-IN, 4 5 of operation. for proper (see operation. Application An RF circuit, choke Fig is 2.) needed to feed DC bias without loss of RF signal due to the A2 bias RF output connection, bias pin. shown DC in voltage Recommended is present Application this pin; Circuit, therefore Fig a 2DC blocking capacitor is necessary for proper RF-OUT DC-IN, 5 Connections to operation. ground. Use An via RF holes choke as is shown needed in to Suggested feed DC bias Layout without for PCB loss Design of RF signal to reduce due to the GND A2 2,3,6,7 & paddle ground bias connection, path inductance as shown for in best Recommended performance. Application Circuit, Fig 2 * Enhancement mode pseudomorphic High Electron Mobility Connections Transistor. to ground. Use via holes as shown in Suggested Layout for PCB Design to reduce GND 2,3,6,7 & paddle a. Suitability for model replacement within a particular system ground must path be determined inductance by for is best solely performance. the responsibility of the customer based on, among other things, electrical performance criteria, stimulus conditions, application, compatibility with other components environmental conditions stresses. * Enhancement mode pseudomorphic High Electron Mobility Transistor. b. The WJ part number is used for identification comparison purposes only. a. Suitability for model replacement within a particular system must be determined by is solely the responsibility of the customer based on, among other things, electrical performance criteria, stimulus conditions, application, compatibility with other components environmental conditions stresses. b. The WJ part number is used for identification comparison purposes only. A1 A1 RF IN 1 RF IN 1 GND 2 GND 2 GND 3 GND 3 A2 A2 RF IN 4 RF IN 4 Monolithic E-PHEMT MMIC Amplifier Electrical Specifications 1 at 25 C, Zo=5Ω Device Voltage 5V, unless noted (Specifications (other than Matching or where defined as push-pull) are for each of the two matched amplifiers in the package) Condition (GHz) Min. Units.5 3. GHz Gain Input Return Loss Output Return Loss Output compression (2) m Output IP3 (6) m Noise Figure Amplitude Unbalance Matching between A1, A Phase Unbalance deg Device Operating Voltage V Device Operating Current (each amplifier) ma Device Current Variation vs. Temperature 23 µa/ C Device Current Variation vs Voltage.53 ma/mv Thermal Resistance, junction-to-ground lead (7) 34 C/W Absolute (4) Ratings Operating Temperature (5) -4 C to 85 C Storage Temperature -55 C to 15 C Operating Current at 5V (6) ma Power Dissipation (6) 1 mw Input Power (CW) +24 DC Voltage (pads 5,8) 6V : (1) Measured on Mini-Circuits Test Board TB (characterization test circuit, Fig 1a.) (2) Current increases at P1 (3) Measured on evaluation boards (push-pull amplifiers) TB , TB (5Ω) TB (75Ω). See Characterization Test Circuit (Fig. 1b) (4) These ratings are not intended for continuous normal operation. (5) Defined with reference to ground pad temperature. (6) Per single ended amplifier (7) Θjc= Junction Temperature-85 C Voltage X sum of current in A1 & A2 Push-Pull Amplifier Typical Performance (3) Freq. GHZ Gain PHA-11+ TB (75Ω) TB ( 5Ω) TB ( 5Ω) Output IP3 (m) Output IP2 (m) Gain Output IP3 (m) Output IP2 (m) Gain Output IP3 (m) OutputIP2 (m) ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 13

8 Surface Mount Dual Matched MMIC Amplifier Product Two matched amplifiers in one package High IP3, +44 m at.8 GHz in push-pull configuration High IP2, +78 m at.8 GHz in push-pull configuration Gain, 16 typ. at.8 GHz P1, +22 m typ. at.8 GHz Low noise figure, 1.8 typ. at.8 GHz May be used as replacement for WJ AH22 a,b Typical Applications CATV FTTH Optical networks Base station infrastructure Balanced amplifiers 75 Ohm push-pull balanced amplifiers CASE STYLE: DL GHz General Description PHA-22+ is a dual matched wideb high dynamic range amplifier. Enclosed in a 6. x 4.9 mm MCLP plastic package. PHA-22+ is fabricated using E-PHEMT* technology is ideal for use in balanced push-pull amplifiers. simplified schematic (each of A1, A2) pin description Function Pin Number Description RF IN, A1 1 RF-OUT DC-IN, A1 RF IN, A2 4 RF-OUT DC-IN, A2 GND RF IN RF IN A1 A ,3,6,7 & paddle RF OUT DC IN RF OUT DC IN RF input pin. This pin requires the use of an external DC blocking capacitor chosen for the frequency of operation. (see Application Circuit, Fig 2.) RF output bias pin. DC voltage is present on this pin; therefore a DC blocking capacitor is necessary for proper operation. An RF choke is needed to feed DC bias without loss of RF signal due to the bias connection, as shown in Recommended Application Circuit, Fig 2 RF input pin. This pin requires the use of an external DC blocking capacitor chosen for the frequency of operation. (see Application Circuit, Fig 2.) RF output bias pin. DC voltage is present on this pin; therefore a DC blocking capacitor is necessary for proper operation. An RF choke is needed to feed DC bias without loss of RF signal due to the bias connection, as shown in Recommended Application Circuit, Fig 2 Connections to ground. Use via holes as shown in Suggested Layout for PCB Design to reduce ground path inductance for best performance. * Enhancement mode pseudomorphic High Electron Mobility Transistor. a. Suitability for model replacement within a particular system must be determined by is solely the responsibility of the customer based on, among other things, electrical performance criteria, stimulus conditions, application, compatibility with other components environmental conditions stresses. b. The WJ part number is used for identification comparison purposes only. RF OUT & DC IN 8 A1 RF IN 1 GND 7 GND 2 GND 6 GND 3 RF OUT & DC IN 5 A2 RF IN 4 Monolithic E-PHEMT MMIC Amplifier PHA-22+ PHA-22+ Electrical Specifications 1 at 25 C, Zo=5Ω Device Voltage 5V, unless noted (Specifications (other than Matching or where defined as push-pull) are for each of the two matched amplifiers in the package) Electrical Specifications 1 at 25 C, Zo=5Ω Device Voltage 5V, unless noted Condition (GHz) Min. Units (Specifications (other than Matching or where defined as push-pull) are for each of the two matched amplifiers in the package) GHz Condition.5 (GHz) Min Units Gain GHz Gain Input Return Loss Input Return Loss Output Return Loss Output Return Loss Output compression (2) m Output compression (2) m Output IP3 (6) m Output IP3 (6) m Noise Figure Noise Figure Amplitude Unbalance Matching between A1, A2 Matching between A1, A2 Amplitude Unbalance Phase Unbalance deg Device Operating Voltage Phase Unbalance V deg. Device Operating Current (each amplifier) ma Device Current Variation vs. Temperature 23 µa/ C Device Operating Voltage V Device Current Variation vs Voltage.53 ma/mv Device Operating Current (each amplifier) ma Device Current Variation vs. Temperature 23 µa/ C Device Current Variation vs Voltage.53 ma/mv Push-Pull Amplifier Typical Performance (3) TB (75Ω) TB ( 5Ω) (GHZ) Gain Output IP3 Output IP2 Push-Pull Amplifier Typical (m) Performance (3) (m) Gain Output IP3 (m) Output IP2 (m) TB (75Ω) TB ( 5Ω) (GHZ) Gain Output IP3 Output IP2 Gain Output IP3 Output IP (m) (m) (m) (m) Absolute (4) Ratings Operating Temperature (5) -4 C to 85 C Storage Temperature -55 C to 15 C Operating Current at 5V (6) Power Dissipation (6) Input Power (CW) DC Voltage (pads 5,8) ma 1 mw +24 m 6V : (1) Measured on Mini-Circuits Test Board TB (characterization test circuit, Fig 1a. (2) Current increases at P1 (3) : Measured on evaluation boards (push-pull amplifiers) TB (5Ω) (1) TB Measured on (75Ω). Mini-Circuits See Characterization Test Board TB Test Circuit (characterization (Fig. 1b) test circuit, Fig 1a. (4) (2) Permanent Current increases damage at may P1 occur if any of these limits are exceeded. (3) These Measured ratings on are evaluation not intended boards for (push-pull continuous amplifiers) normal operation. TB (5Ω) (5) Defined TB with reference (75Ω). See to Characterization ground pad temperature. Test Circuit (Fig. 1b) (6) (4) Per Permanent single ended damage amplifier may occur if any of these limits are exceeded. (7) Θjc= These Junction ratings Temperature-85 C are not intended for continuous normal operation. (5) Defined Voltage with X reference sum of current to ground in A1 pad & A2 temperature. (6) Per single ended amplifier (7) Θjc= Junction Temperature-85 C Voltage X sum of current in A1 & A2 14 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 15

9 Surface Mount Dual Matched MMIC Amplifier Product Two matched amplifiers in one package High IP3, m at.9 GHz High IP2, +7 m at.9 GHz in push-pull configuration Gain, 15.7 typ at.9 GHz Excellent Gain flatness, ±.5 (.5-3 GHz) P1, m typ at.9 GHz Typical Applications SATCOM CATV FTTH Optical networks Base station infrastructure Balanced amplifiers 75 Ohm push-pull balanced amplifiers CASE STYLE: DL1.4-3 GHz General Description MGVA-62+ (RoHS compliant) is an advanced ultra-flat gain amplifier fabricated using InGaP HBT technology offers high dynamic range over a broad frequency range. In addition, the MGVA-62+ has good input output return loss over a broad frequency range without the need for external matching components. Lead finish is SnAgNi is enclosed in a 4.9 x 6 mm MCLP package for good thermal performance. simplified schematic (each of A1, A2) pad description Function Pad Number Description RF IN, A1 1 RF-OUT DC-IN, A1 RF IN, A2 4 RF-OUT DC-IN, A2 GND RF IN RF IN A1 A ,3,6,7 & paddle RF OUT DC IN RF OUT DC IN RF OUT & DC IN 8 RF input pin. This pin requires the use of an external DC blocking capacitor chosen for the frequency of operation. (see Application circuit, Fig 2.) RF output bias pin. DC voltage is present on this pin; therefore a DC blocking capacitor is necessary for proper operation. An RF choke is needed to feed DC bias without loss of RF signal due to the bias connection, as shown in Recommended Application Circuit, Fig 2 RF input pin. This pin requires the use of an external DC blocking capacitor chosen for the frequency of operation. (see Application circuit, Fig 2.) RF output bias pin. DC voltage is present on this pin; therefore a DC blocking capacitor is necessary for proper operation. An RF choke is needed to feed DC bias without loss of RF signal due to the bias connection, as shown in Recommended Application Circuit, Fig 2 Connections to ground. Use via holes as shown in Suggested Layout for PCB Design to reduce ground path inductance for best performance. A1 RF IN 1 GND 7 GND 2 GND 6 GND 3 RF OUT & DC IN 5 A2 RF IN 4 Monolithic InGap HBT MMIC Amplifier MGVA-62+ Electrical Specifications 1 at 25 C, Zo=5Ω Device Voltage 5V, unless noted (Specifications (other than Matching or where defined as push-pull) are for each of the two matched amplifiers in the package) Condition (GHz) Min. Units.4 3. GHz Gain Gain Flatness.5-3. ± Input Return Loss Output Return Loss Output compression (2,3) m Output IP3 (3) m Noise Figure Amplitude Unbalance Matching between A1, A Phase Unbalance deg Device Operating Voltage V Device Operating Current (each amplifier) ma Device Current Variation vs. Temperature 61 µa/ C Device Current Variation vs Voltage.36 ma/mv Thermal Resistance, junction-to-ground lead (4) 39 C/W (1) Measured on Mini-Circuits Test Board TB , see characterization circuit, Fig 1. (2) Current increases at P1 Absolute (6) (3) Per single ended amplifier (4) Θjc= (Junction Temperature - 85 C) / (Voltage X sum of current in A1 & A2) Push-Pull Amplifier Typical Performance (5) TB (5Ω) Ratings Freq. GHz Gain Output IP3 Output IP2 Operating Temperature 7-4 C to 85 C (m) (m) Storage Temperature -55 C to 15 C Operating Current at 5V 1 ma Power Dissipation.725 W Input Power (CW) 24 m DC Voltage (pads 5, 8) A. Performance (6) quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. B. Electrical specifications Permanent performance damage may data occur contained if any of in this these specification limits are exceeded document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. These ratings are not intended for continuous normal operation. (5) Measured on evaluation boards TB (push-pull amplifier) C. The to the parts rights covered benefits (7) by Defined this contained specification with therein. reference document For to a full ground statement are pad subject temperature. of the to Stard Mini-Circuits Terms stard the limited exclusive warranty rights remedies terms thereunder, conditions please (collectively, visit Mini-Circuits Stard website Terms ); at Purchasers of this part are entitled 16 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 17

10 Surface Mount Dual Matched MMIC Amplifier Product Two matched amplifiers in one package High IP3, m at.9 GHz High IP2, +7 m at.9 GHz in push-pull configuration Gain, 21.4 typ at.9 GHz P1, m typ at.9 GHz Typical Applications SATCOM CATV FTTH Optical networks Base station infrastructure Balanced amplifiers 75 Ohm push-pull balanced amplifiers.4-3 GHz CASE STYLE: DL1 General Description MGVA-63+ (RoHS compliant) is a high gain amplifier fabricated using InGaP HBT technology offers high dynamic range over a broad frequency range. Lead finish is SnAgNi is enclosed in a 4.9 x 6 mm MCLP package for good thermal performance. simplified schematic (each of A1, A2) pad description Function Pad Number Description RF IN, A1 1 RF-OUT DC-IN, A1 RF IN, A2 4 RF-OUT DC-IN, A2 GND RF IN RF IN 8 5 2,3,6,7 & paddle RF OUT DC IN RF OUT DC IN * Enhancement mode pseudomorphic High Electron Mobility Transistor. A1 A2 RF OUT & DC IN 8 RF input pin. This pin requires the use of an external DC blocking capacitor chosen for the frequency of operation. (see Application circuit, Fig 2.) RF output bias pin. DC voltage is present on this pin; therefore a DC blocking capacitor is necessary for proper operation. An RF choke is needed to feed DC bias without loss of RF signal due to the bias connection, as shown in Recommended Application Circuit, Fig 2 RF input pin. This pin requires the use of an external DC blocking capacitor chosen for the frequency of operation. (see Application circuit, Fig 2.) RF output bias pin. DC voltage is present on this pin; therefore a DC blocking capacitor is necessary for proper operation. An RF choke is needed to feed DC bias without loss of RF signal due to the bias connection, as shown in Recommended Application Circuit, Fig 2 Connections to ground. Use via holes as shown in Suggested Layout for PCB Design to reduce ground path inductance for best performance. A1 RF IN 1 GND 7 GND 2 GND 6 GND 3 RF OUT & DC IN 5 A2 RF IN 4 Monolithic InGap HBT MMIC Amplifier MGVA-63+ Electrical Specifications 1 at 25 C, Zo=5Ω Device Voltage 5V, unless noted (Specifications (other than Matching or where defined as push-pull) are for each of the two matched amplifiers in the package) Condition (GHz) Min. Units.4 3. GHz Gain Gain Flatness.5-3. ± Input Return Loss Output Return Loss Output compression (2,3) m Output IP3 (3) m Noise Figure Amplitude Unbalance Matching between A1, A Phase Unbalance deg Device Operating Voltage V Device Operating Current (each amplifier) ma Device Current Variation vs. Temperature 69 µa/ C Device Current Variation vs Voltage.43 ma/mv Thermal Resistance, junction-to-ground lead (4) 58.4 C/W (1) Measured on Mini-Circuits Test Board TB , see characterization circuit, Fig 1. (2) Current increases at P1 Absolute (6) (3) Per single ended amplifier (4) Θjc= (Junction Temperature - 85 C) / (Voltage X sum of current in A1 & A2) Push-Pull Amplifier Typical Performance (5) TB ( 5Ω) Ratings Freq. (GHz) Gain Output IP3 Output IP2 Operating Temperature 7-4 C to 85 C (m) (m) Storage Temperature -55 C to 15 C Operating Current at 5V 1 ma Power Dissipation.5 W Input Power (CW) 13 m DC Voltage (pads 5, 8) A. Performance (6) quality Permanent attributes damage conditions may occur not if any expressly of these stated limits in are this exceeded. specification document are intended to be excluded do not 3.form a part of 16.4 this specification document B. Electrical specifications These ratings performance are not data intended contained for continuous this specification normal operation. document are based on Mini-Circuit s applicable established (5) Measured test performance on evaluation criteria boards measurement TB instructions. (push-pull amplifier) C. The to the parts rights covered benefits (7) by Defined this contained specification with therein. reference document For to a full ground statement are pad subject temperature. of the to Stard Mini-Circuits Terms stard the limited exclusive warranty rights remedies terms thereunder, conditions please (collectively, visit Mini-Circuits Stard website Terms ); at Purchasers of this part are entitled 18 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 19

11 Surface Mount Dual Matched MMIC Amplifier Product Two matched amplifiers in one package High IP3, m at.9 GHz High IP2, +59 m at.9 GHz in push-pull configuration Gain, 14.4 typ. at.9 GHz Excellent Gain Flatness, ±.5 (.1-2 GHz) P1, +21 m typ. at.9 GHz Low noise figure, 1.9 typ. at.9 GHz Typical Applications SATCOM CATV FTTH Optical networks Base station infrastructure Balanced amplifiers 75 Ohm push-pull balanced amplifiers.4-3 GHz CASE STYLE: DL1 General Description MPGA-15+ (RoHS compliant) is an advanced ultra-flat gain amplifier fabricated using E-PHEMT technology offers extremely high dynamic range over a broad frequency range with low noise figure. In addition, the MPGA-15+ has good input output return loss over a broad frequency range without the need for external matching components. Lead finish is SnAgNi is enclosed in a 4.9 x 6 mm MCLP package for good thermal performance. simplified schematic (each of A1, A2) pad description Function Pad Number Description RF IN, A1 1 RF-OUT DC-IN, A1 RF IN, A2 4 RF-OUT DC-IN, A2 GND RF IN RF IN 8 5 2,3,6,7 & paddle RF OUT DC IN RF OUT DC IN * Enhancement mode pseudomorphic High Electron Mobility Transistor. A1 A2 RF OUT & DC IN 8 RF input pin. This pin requires the use of an external DC blocking capacitor chosen for the frequency of operation. (see Application circuit, Fig 2.) RF output bias pin. DC voltage is present on this pin; therefore a DC blocking capacitor is necessary for proper operation. An RF choke is needed to feed DC bias without loss of RF signal due to the bias connection, as shown in Recommended Application Circuit, Fig 2 RF input pin. This pin requires the use of an external DC blocking capacitor chosen for the frequency of operation. (see Application circuit, Fig 2.) RF output bias pin. DC voltage is present on this pin; therefore a DC blocking capacitor is necessary for proper operation. An RF choke is needed to feed DC bias without loss of RF signal due to the bias connection, as shown in Recommended Application Circuit, Fig 2 Connections to ground. Use via holes as shown in Suggested Layout for PCB Design to reduce ground path inductance for best performance. A1 RF IN 1 GND 7 GND 2 GND 6 GND 3 RF OUT & DC IN 5 A2 RF IN 4 Dual Matched MMIC Amplifier Electrical Specifications 1 at 25 C, Zo=5Ω Device Voltage 5V, unless noted (Specifications other than Matching or where defined as push-pull are for each of the two matched amplifiers in the package) Condition (GHz) Min. Units.4 3. GHz Gain Gain Flatness.1-2. ± Input Return Loss Output Return Loss Output compression (2,6) m Output IP3 (6) m Noise Figure Amplitude Unbalance Matching between A1, A Phase Unbalance deg Device Operating Voltage V Device Operating Current (each amplifier) ma Device Current Variation vs. Temperature 8 µa/ C Device Current Variation vs Voltage.14 ma/mv Thermal Resistance, junction-to-ground lead (7) 47 C/W Absolute (4) Ratings Operating Temperature -4 C to 85 C Storage Temperature -65 C to 15 C Operating Current at 5V (6) 94 ma Power Dissipation (6).47 W Input Power (CW) (6) 23 m (5 minutes max, 17 m (continuous) DC Voltage (pads 5, 8) 5.5V (1) Measured on Mini-Circuits Test Board TB , see characterization circuit, Fig 1. (2) Current increases at P1 (3) Measured on evaluation boards (push-pull amplifiers) TB See characterization Test Circuit (Fig 1b) (4) (5) Defined with reference to ground pad temperature. (6) Per single ended amplifier. (7) Θjc= (Junction Temperature - 85 C) / (Voltage X sum of current in A1 & A2) MPGA-15+ Push-Pull Amplifier Typical Performance (3) (GHz) Gain Output IP3 (m) Output IP2 (m) ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 21

12 DIRECTIONAL COUPLERS With stard catalog models specified for DOCSIS 3.1 requirements, Mini-Circuits wide selection of directional couplers spans coupling values from 6 to 25. Core wire models feature Mini-Circuits unique Top Hat feature to improve speed accuracy of pick place assembly. All models offer flat coupling across frequency, low mainline loss, good directivity. FEATURES Coupling from 6 to 25 Excellent Coupling Flatness Low Mainline Loss High Directivity Power Hling up to 1W Top Hat Feature on Core Wire Models 22 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 23

13 D 3.1 P G Surface Mount top hat Directional Coupler 75Ω 1 5 to 125 MHz wideb, 5 to 125 MHz low mainline loss, 1.7 typ. leads for excellent solderability protected by US Patent 6,14,887 Applications DOCSIS 3.1 Systems VHF/UHF CATV cellular TCD X+ CASE STYLE: AT1521 The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications 7, 5, 1,, , 7, 5, 1,, , Docsis 3.1 Product Guide Outline Drawing PCB L Pattern Outline Drawing PCB L Pattern TCD X+ ADTL Demo Board MCL P/N: TB-72 Suggested PCB Layout (PL-1) Condition Min. Unit MHz Mainline Loss 1 (above theoretical.1 ) Nominal Coupling ±.5 Coupling Flatness(±) Directivity Return Loss (Input) Return Loss (Output) Return Loss (Coupling) Input Power W 1. Mainline loss includes theoretical power loss at coupled port. Ratings Operating Temperature -4 C to 85 C* * Case temperature is defined as temperature on ground leads. Function Pin Number INPUT 3 OUTPUT 4 COUPLED 1 GROUND 2 75Ω TERM EXTERNAL 6 MAINLINE LOSS Suggested Layout, Tolerance to be within ±.2 : 1. Case Material: Plastic 2. Termination Finish: Tin plate over Nickel plate. 3. Lead#1 identifier shall be located in the cross-hatched area shown, on bottom view. Identifier may be either a molded or marked feature. 4. Top-Hat total thickness:.13 inches max. Outline Dimensions ( inch mm ) A B C D E F G H J K wt grams TCD X+ MAINLINE LOSS INSERTION LOSS ADTL INSERTION 25 LOSS COUPLING & DIRECTIVITY 15 1 Typical Typical Performance Performance Data Data Mainline Loss Coupling Directivity Return Loss FREQUENCY INSERTION INPUT AMPLITUDE PHASE In-Out LOSS In-Cpl R. LOSS UNBALANCE In Out UNBALANCE Cpl (Deg.) TCD X+ COUPLING & DIRECTIVITY COUPLING DIRECTIVITY 8 ADTL INPUT RETURN 5 LOSS FREQUENCY FREQUENCY FREQUENCY FREQUENCY Suggested Layout, Tolerance to be within ±.2 Outline Dimensions ( inch mm ) A B C D E F G H J K L wt grams RETURN LOSS RETURN LOSS 4 3 FREQUENCY TCD X+ RETURN LOSS IN OUT CPL Additional A. Performance emedies thereunder quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specifi cation document. B. Electrical A. Performance specifications quality attributes performance conditions data contained not expressly in this stated specification in this specification document document are based are intended on Mini-Circuit s to be excluded applicable do established not form a part test of performance this specification criteria document. measurement instructions. C. The B. Electrical parts covered specifications by this specification performance document data contained are subject in this specification to Mini-Circuits document stard are based limited on warranty Mini-Circuit s applicable terms established conditions test (collectively, performance Stard criteria Terms ); measurement Purchasers instructions. of this part are C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled entitled A. Performance to the rights quality benefits attributes contained conditions therein. not expressly For a full stated statement in this of specification the Stard document Terms are intended the exclusive to be excluded rights do remedies not form thereunder, a part of this please specification visit Mini-Circuits document. e/terms.jsp website at B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at 24 ISO 91 ISO 141 AS 91 P.O. Box 35 P.O. Box 35166, Brooklyn, NY to the rights (718) benefits contained therein. For apps@minicircuits.com a full statement of the Stard Terms the exclusive 25 rights 7 remedies thereundersit Mini-Circuits website at 166, Brooklyn, NY sales@minicircuits.com s@minicircuits.com Page 2 of 2

14 Surface Mount top hat Directional Coupler 75Ω to 125 MHz wideb, 5 to 125 MHz low mainline loss, 1.5 typ. leads for excellent solderability protected by US Patent 6,14,887 Applications DOCSIS 3.1 Systems VHF/UHF CATV cellular TCD X+ CASE STYLE: DB1627 The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications 7, 5, 1,, , 7, 5, 1,, , Docsis 3.1 Product Guide Total thickness:.13 inches MAX. Outline Drawing Lead #1 identifier shall be located in the cross hatched area shown PCB L Pattern Outline Drawing PCB L Pattern TCD X+ ADTL Demo Board MCL P/N: TB-72 Suggested PCB Layout (PL-1) Condition Min. Unit MHz Mainline Loss 1 (above theoretical.1 ) Nominal Coupling ±.5 Coupling Flatness(±) Directivity Return Loss (Input) Return Loss (Output) Return Loss (Coupling) Input Power W 1. Mainline loss includes theoretical power loss at coupled port. Operating Temperature Ratings -4 C to 85 C* * Case temperature is defined as temperature on ground leads. Function Pin Number INPUT 3 OUTPUT 4 COUPLED 1 GROUND 2 75Ω TERM EXTERNAL 6 NOT USED 5 MAINLINE LOSS Outline Dimensions ( inch mm ) A B C D E F G H J K wt grams TCD X+ MAINLINE LOSS Suggested Layout, Tolerance to be within ±.2 COUPLING & DIRECTIVITY Typical Performance Data Mainline Loss Coupling Directivity Return Loss In-Out In-Cpl In Out Cpl 5 FREQUENCY 1.61 INSERTION INPUT AMPLITUDE PHASE LOSS16.26 R. LOSS UNBALANCE UNBALANCE (Deg.) TCD X+ COUPLING & DIRECTIVITY RETURN LOSS TCD X+ RETURN LOSS ADTL COUPLING DIRECTIVITY ADTL IN OUT CPL 1.6 INSERTION 4LOSS INPUT RETURN LOSS FREQUENCY FREQUENCY 1 FREQUENCY INSERTION LOSS FREQUENCY Suggested Layout, Tolerance to be within ±.2 Outline Dimensions ( inch mm ) A B C D E F G H J K L wt grams Typical Performance Data RETURN LOSS FREQUENCY Additional A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specifi cation document. B. Electrical A. Performance specifications quality attributes performance conditions data contained not expressly in this stated specification in this specification document document are based are intended on Mini-Circuit s to be excluded applicable do established not form a part test of performance this specification criteria document. measurement instructions. C. The B. Electrical parts covered specifications by this specification performance document data contained are subject in this specification to Mini-Circuits document stard are based limited on warranty Mini-Circuit s applicable terms established conditions test (collectively, performance Stard criteria Terms ); measurement Purchasers instructions. of this part are C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled entitled A. Performance to the rights quality benefits attributes contained conditions therein. not expressly For a full stated statement in this of specification the Stard document Terms are intended the exclusive to be excluded rights do remedies not form thereunder, a part of this please specification visit Mini-Circuits document. e/terms.jsp website at B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at 26 ISO 91 ISO 141 AS P.O. Box 35 P.O. Box 35166, Brooklyn, NY to the rights (718) benefits contained therein. For apps@minicircuits.com a full statement of the Stard Terms the exclusive 27 rights 7 remedies thereundersit Mini-Circuits website at 166, Brooklyn, NY sales@minicircuits.com s@minicircuits.com Page 2 of 2

15 Docsis 3.1 Product Guide Surface Mount Directional Coupler 75Ω to 125 MHz wideb, 5 to 125 MHz low mainline loss, 2.5 typ. leads for excellent solderability protected by US Patent 6,14,887 Applications DOCSIS 3.1 Systems VHF/UHF CATV cellular top hat Ratings Operating Temperature -4 C to 85 C* * Case temperature is defined as temperature on ground leads. Function TCD X+ CASE STYLE: AT1521 The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications 7, 5, 1,, , 7, 5, 1,, , Condition Min. Unit MHz Mainline Loss 1 (above theoretical.1 ) Nominal Coupling ±.3 Coupling Flatness(±) ±.2 ± Directivity Return Loss (Input) Return Loss (Output) Return Loss (Coupling) Input Power W 1. Mainline loss includes theoretical power loss 1.1 at coupled port. Pin Number INPUT 3 OUTPUT 4 COUPLED 1 GROUND 2 75Ω TERM EXTERNAL 6 D 3.1 P G Docsis 3.1 Product Guide Outline Drawing Outline Dimensions ( inch mm ) A B C D E F G H J K wt grams PCB L Pattern Suggested Layout, Tolerance to be within ±.2 : 1. Case Material: Plastic 2. Termination Finish: Tin plate over Nickel plate. 3. Lead#1 identifier shall be located in the cross-hatched area shown, on bottom view. Identifier may be either a molded or marked feature. 4. Top-Hat total thickness:.13 inches max. Outline Drawing PCB L Pattern Suggested Layout, Tolerance to be within ±.2 Outline Dimensions ( inch mm ) A B C D E F G H J K L wt grams Typical Performance Data Typical Performance Data TCD X+ ADTL Demo Board MCL P/N: TB-72 Suggested PCB Layout (PL-1) Mainline Loss Coupling Directivity Return Loss FREQUENCY INSERTION INPUT AMPLITUDE PHASE In-Out In-Cpl In Out Cpl LOSS R. LOSS UNBALANCE UNBALANCE (Deg.) MAINLINE LOSS TCD X+ MAINLINE LOSS INSERTION LOSS ADTL INSERTION LOSS 15 COUPLING & DIRECTIVITY 1 TCD X+ COUPLING & DIRECTIVITY COUPLING DIRECTIVITY 5 ADTL INPUT RETURN LOSS FREQUENCY FREQUENCY 1 FREQUENCY FREQUENCY RETURN LOSS RETURN LOSS 3 FREQUENCY TCD X+ RETURN LOSS IN OUT CPL Additional A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specifi cation document. B. Electrical A. Performance specifications quality attributes performance conditions data contained not expressly in this stated specification in this specification document document are based are intended on Mini-Circuit s to be excluded applicable do established not form a part test of performance this specification criteria document. measurement instructions. C. The B. Electrical parts covered specifications by this specification performance document data contained are subject in this specification to Mini-Circuits document stard are based limited on warranty Mini-Circuit s applicable terms established conditions test (collectively, performance Stard criteria Terms ); measurement Purchasers instructions. of this part are C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled entitled A. Performance to the rights quality benefits attributes contained conditions therein. not expressly For a full stated statement in this of specification the Stard document Terms are intended the exclusive to be excluded rights do remedies not form thereunder, a part of this please specification visit Mini-Circuits document. e/terms.jsp website at B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at 28 ISO 91 ISO 141 AS P.O. Box 35 P.O. Box 35166, Brooklyn, NY to the rights (718) benefits contained therein. For apps@minicircuits.com a full statement of the Stard Terms the exclusive 29 rights 7 remedies thereundersit Mini-Circuits website at 166, Brooklyn, NY sales@minicircuits.com s@minicircuits.com Page 2 of 2

16 Directional Couplers TCD X+ TCD X+ 75Ω to 125 MHz TCD TCD Ω 4 to 1 MHz wideb 5 to 125 MHz low mainline loss, 1.2 typ. leads for excellent solderability protected by US Patent 6,14,887 CASE STYLE: DB1627 wideb 4 to 1 MHz excellent flatness, ±.5 typ. each b better performance than MA-COM EMDC footprint compatible to EMDC CASE STYLE: DB714 NEW! TCD X+ Mainline Loss Coupling Directivity Input Return Loss Output Coupling Input Power (W) ± ± ± Reel Size 7 Devices/Reel, 5, 1,, , 7, 5, 1,, , TCD Mainline Loss Coupling Directivity Return Loss Input Power (W) ± ± ± Reel Size 7 Devices/Reel, 5, 1,, , 7, 5, 1,, , Operating Temperature -4 C to 85 C Input 3 Output 4 Coupled 1 Ground 2 75Ω Term External* 6 Not used 5 Operating Temperature -4 C to 85 C Input 3 Output 4 Coupled 1 Ground 2 75Ω Term External 6 Not used 5 *Case temperature is defined as temperature on ground leads TCD X+ TCD X+ 75Ω to 125 MHz TCD--4-75X+ TCD--4-75X+ 75Ω 4 to 1 MHz wideb 5 to 125 MHz low mainline loss, 1. typ. leads for excellent solderability protected by US Patent 6,14,887 NEW! TCD X+ Mainline Loss Operating Temperature -4 C to 85 C Coupling Directivity Input Return Loss Output Input 3 Output 4 Coupled 1 Ground 2 75Ω Term External* 6 Not used 5 Coupling Input Power (W) ± ± ± CASE STYLE: DB1627 7, 5, 1,, 5 13 Reel Size 1, Devices/Reel 7, 5, 1,, , wideb 4 to 1 MHz excellent flatness, ±.5 typ. each b better performance than MA-COM EMDC footprint compatible to EMDC TCD--4-75X+ Mainline Loss Operating Temperature -4 C to 85 C Coupling Directivity Return Loss Input Power (W) ± ± ± Input 3 Output 4 Coupled 1 Ground 2 75Ω Term External 6 Not used 5 CASE STYLE: DB1627 7, 5, 1,, 5 13 Reel Size 1, Devices/Reel 7, 5, 1,, , *Case temperature is defined as temperature on ground leads 3 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 31 Visit for pricing, availability, complete model information.

17 Docsis 3.1 Product Guide Surface Mount Directional Coupler 75Ω 6 5 to 125 MHz very fl at coupling very broadb, multi octave temperature stable, LTCC base all welded construction leads attached for better solderability micro miniature coupler protected by US Patents 6,14,887 & 6,784,521 CASE STYLE: AT79-1 Condition Min. Unit MHz Mainline Loss Nominal Coupling ±.3 Coupling Flatness(±) ± Directivity Return Loss (Input) Docsis 3.1 Product Guide Outline Drawing Outline Dimensions ( inch mm ) Outline Drawing PCB L Pattern PCB L Pattern Suggested Layout, Tolerance to be within ±.2 Suggested Layout, Tolerance to be within ±.2 Outline Dimensions ( inch mm ) A B C D E F G H JA KB wt C D E F G grams H J K L wt grams DBTC ADTL Demo Board MCL P/N: TB-279 Suggested PCB Layout (PL-151) Return Loss (Output) Return Loss (Coupling) Input Power Ratings Operating Temperature -4 C to 85 C Function Pin Number INPUT 3 OUTPUT 4 COUPLED 1 GROUND 2 NOT USED 6 W MAINLINE LOSS at RF level of -1 m DBTC MAINLINE LOSS COUPLING & DIRECTIVITY Typical Performance Data Typical Performance Data at RF level of -1 m DBTC COUPLING & DIRECTIVITY RETURN LOSS DBTC RETURN LOSS 3. 5 at RF level of -1 m 2.8 IN OUT CPL ADTL ADTL INSERTION LOSS INPUT RETURN LOSS COUPLING DIRECTIVITY FREQUENCY.4 FREQUENCY INSERTION LOSS Mainline Loss Coupling Directivity Return Loss FREQUENCY In-Out INSERTION In-Cpl INPUT AMPLITUDE In Out PHASE Cpl LOSS R. LOSS UNBALANCE UNBALANCE (Deg.) FREQUENCY RETURN LOSS FREQUENCY FREQUENCY Additional A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specifi cation document. B. Electrical A. Performance specifications quality attributes performance conditions data contained not expressly in this stated specification in this specification document document are based are intended on Mini-Circuit s to be excluded applicable do established not form a part test of performance this specification criteria document. measurement instructions. C. The B. Electrical parts covered specifications by this specification performance document data contained are subject in this specification to Mini-Circuits document stard are based limited on warranty Mini-Circuit s applicable terms established conditions test (collectively, performance Stard criteria Terms ); measurement Purchasers instructions. of this part are C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled entitled A. Performance to the rights quality benefits attributes contained conditions therein. not expressly For a full stated statement in this of specification the Stard document Terms are intended the exclusive to be excluded rights do remedies not form thereunder, a part of this please specification visit Mini-Circuits document. e/terms.jsp website at B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at P.O. Box 35 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY to the rights (718) benefits contained therein. For apps@minicircuits.com a full statement of the Stard Terms the exclusive 33 rights 7 remedies thereundersit Mini-Circuits website at 166, Brooklyn, NY ) sales@minicircuits.com s@minicircuits.com Page 2 of 2

18 DirecTional couplers Directional Couplers DBTC L+ DBTC L+ 75Ω to 1 MHz DBTC L+ DBTC L+ 75Ω 16 5 to 15 MHz wideb 5 to 1 MHz temperature stable, LTCC base leads for excellent solderability protected by US Patent 6,14,887 & 6,784,521 CASE STYLE: AT13 wideb 5 to 15 MHz temperature stable, LTCC base leads for excellent solderability protected by US Patent 6,14,887 & 6,784,521 CASE STYLE: AT13 DBTC L+ Mainline Loss Coupling Directivity Return Loss Input Power (W) ± ± ± ± Reel Size, 5, Devices/Reel 1,, ,, 5, 1,, , DBTC L+ Mainline Loss Coupling Directivity Return Loss Input Power (W) ± ± Reel Size 7, 5, 1,, , 7, 5, 1,, , Operating Temperature -4 C to 85 C Input 3 Output 4 Coupled 1 Ground 2 Not used 6 Operating Temperature -4 C to 85 C Input 3 Output 4 Coupled 1 Ground 2 Not used 6 DBTC Ω 12 5 to 1 MHz DBTC--4-75L+ 75Ω.5 5 to 125 MHz wideb 5 to 1 MH temperature stable, LTCC base protected by US Patent 6,14,887 & 6,784,521 CASE STYLE: AT79-1 wideb 5 to 125 MHz temperature stable, LTCC base protected by US Patent 6,14,887 & 6,784,521 CASE STYLE: AT79-1 Mainline Loss Coupling Directivity Return Loss Input Power (W) 7, 5, 1,, , 7, 5, 1,, , Mainline Loss Coupling Directivity Return Loss Input Power (W) 7, 5, 1,, , 7, 5, 1,, , DBTC L ± ± ± ± DBTC--4-75L ± Operating Temperature -4 C to 85 C Input 3 Output 4 Coupled 1 Ground 2 Not used 6 Operating Temperature -4 C to 85 C Input 3 Output 4 Coupled 1 Ground 2 Not used 6 34 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 35 Visit for pricing, availability, complete model information.

19 D 3.1 P G Directional Couplers ADC ADC Ω to 125 MHz ADC ADC Ω to 125 MHz wideb, MHz excellent coupling flatness, ±.15 typ. protected by U.S Patents 6,133,525 & 6,14,887 Mainline Loss Coupling Directivity Input Return Loss Output Coupling Input Power (W) CASE STYLE: CD542 Reel 7 Size, Devices/Reel 5, 1,, 5 7, 5, 1,, , ,1 low mainline loss,.9 typ. good directivity, 18 typ. good VSWR, 1.25:1 typ. excellent coupling flatness, ±.15 typ. protected by U.S Patents 6,133,525 & 6,14,887 Mainline Loss Coupling Directivity Input Return Loss Output Coupling Input Power* (W) CASE STYLE: CD542 7 Reel Size, Devices/Reel 5, 1,, 5 7, 5, 1,, , 5,1 1 ADC ± ± ADC ± ± * 5- MHz,.5W ; -125 MHz, 1.W Operating Temperature -4 C to 85 C Input 1 Output 6 Coupled 3 Ground 2 75Ω Term External 4 Isolate (Do not use) 5 Operating Temperature -4 C to 85 C Input 1 Output 6 Coupled 3 Ground 2 75Ω Term External 4 Isolate (Do not use) 5 ADC Ω to 125 MHz ADC Ω to 125 MHz wideb, MHz low mainline loss, 1. typ. excellent coupling flatness, ±.3 typ. protected by U.S Patents 6,133,525 & 6,14,887 ADC Mainline Loss Coupling Directivity Input Return Loss Output Coupling Input Power (W) ± ± CASE STYLE: CD542 7, 5, 1,, ,1 7, 5, 1,, , 1 low mainline loss,.7 typ. high directivity, typ. good VSWR, 1.15:1 typ. excellent coupling flatness, ±.1 typ. protected by U.S Patents 6,133,525 & 6,14,887 ADC Mainline Loss Coupling Directivity Input Return Loss Output Coupling Input Power* (W) ± ± * 5-5 MHz,.5W ; MHz, 1.W CASE STYLE: CD542 7, 5, 1,, ,1 7, 5, 1,, , 1 Operating Temperature -4 C to 85 C Input 1 Output 6 Coupled 3 Ground 2 75Ω Term External 4 Isolate (Do not use) 5 Operating Temperature -4 C to 85 C Input 1 Output 6 Coupled 3 Ground 2 75Ω Term External 4 Isolate (Do not use) 5 36 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 37 Visit for pricing, availability, complete model information.

20 Directional Couplers ADC ADC Ω to 125 MHz TCD-9-1W-75X+ TCD-9-1W-75X+ 75Ω to MHz low mainline loss,.5 typ. high directivity, 23 typ. excellent coupling flatness, ±.15 typ. protected by U.S Patents 6,133,525 & 6,14,887 ADC Mainline Loss Coupling Directivity Input Return Loss Output Coupling Input Power (W) ± ± CASE STYLE: CD542 7, 5, 1,, 5 13 Reel Size 5, Devices/Reel 1 7 1,, 5, 1,, , 1 Schematic low mainline loss, 1.3 typ. (5-1 MHz) leads for excellent solderability protected by U.S Patent 6,14,887 TCD-9-1W-75X+ Mainline Loss Coupling Directivity Return Loss Input Power (W) ± ± CASE STYLE: DB1627 7, 5, 1,, ,, 5, 1,, , Operating Temperature -4 C to 85 C Input 1 Output 6 Coupled 3 Ground 2 75Ω Term External 4 Isolate (Do not use) 5 Operating Temperature -4 C to 85 C Input 3 Output 4 Coupled 1 Ground 2 75Ω Term External 6 Not used 5 ADC Ω 25 5 to 125 MHz LRDC-1-2W Ω 1 1 to 1 MHz low mainline loss,.3 typ. high coupling, 25 typ. excellent VSWR, 1.2:1 typ. protected by U.S Patents 6,133,525 & 6,14,887 CASE STYLE: CD636 low mainline loss, 1.1 typ. high directivity, 22 typ. CASE STYLE: QQQ13 Mainline Loss Coupling Directivity Input Return Loss Output Coupling Input Power (W) 7, 5, 1,, , 1, 5, 1,, , Mainline Loss Coupling Directivity Return Loss Input Power (W) ADC ± ± LRDC-1-2W ± Operating Temperature -4 C to 85 C Input 1 Output 6 Coupled 3 Ground 2 75Ω Term External 4 Isolate (Do not use) 5 Operating Temperature -4 C to 85 C Input 6 Output 1 Coupled 4 Ground 2,5 Isolate (Do not use) 3 38 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 39 Visit for pricing, availability, complete model information.

21 HIGH PERFORMANCE DIPLEXERS Designed specifically for CATV broadb systems equipment, Mini-Circuits DPB-family of 75Ω diplexers are ideal for diplexing multib signals into two channels. Excellent return loss low insertion loss minimize signal loss through both channels, while high out-of-channel rejection with very steep transitions eliminates unwanted spurious signals in the pass bs. 4 models in the DPB-family offer 4 different channel splits within the DC to 12 b to meet various system requirements. FEATURES Insertion Loss as low as.8 Excellent Return Loss, 22 High Out-of-Channel Rejection, 5 Power Hling up to +3 m Various Channel Splits 4 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 41

22 Docsis Surface Mount 3.1 Product Guide Diplexer Diplexer Surface Mount 75Ω DC to 12 MHz (DC-42, MHz) 75Ω DC to 12 MHz (DC-42, MHz) Operating Temperature -4 to 85 C RF Power Input 27m These ratings are not intended for continuous normal operation HIGH PASS PORT 7 LOW PASS PORT 9 COMMON PORT 18 GROUND 1-6,8,1-17,19, A L INDEX FOR REF A D TYP inch Outline Dimensions ( mm ) B M Outline Drawing 14 C N B 12 D P E TYP F TYP G TYP H TYP L E Q J PICK & PLACE SURFACE AREA T SQ. APPROX F R G.787. S H T J U Demo Board MCL P/N: TB-786+ Suggested PCB Layout (PL-435) K M N C+.3 D S TYP U PCB L Pattern P METALLIZATION SOLDER RESIST Suggested Layout, Tolerance to be within ±.2 D R TYP U K Wt. grams 3.8 Q Low insertion loss 75Ω Impedance Excellent return loss High rejection Applications Cable TV systems (DOCSIS 3.1 stanard) Multib radio systems Pass B Stop B Isolation FREQUENCY Typical Performance Data at 25 C Functional Schematic DPB DPB CASE STYLE: PA2 Port Min. Unit Insertion Loss Return Loss Low Pass DC High Pass Low Pass DC High Pass Common Low Pass DC High Pass DC INSERTION LOSS The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications RETURN LOSS Low Pass Port High Pass Port Common Port Low Pass Port High Pass Port Docsis 3.1 Product Guide Insertion Loss Return Loss Return Loss Performance Charts Performance Charts Docsis 3.1 Product Guide Insertion Loss DPB LOW PASS PORT INSERTION LOSS (Pin=m) DPB LOW PASS PORT INSERTION LOSS (Pin=m) Return Loss DPB LOW PASS PORT RETURN DPB LOSS (Pin=m) LOW PASS PORT RETURN LOSS (Pin=m) Return Loss DPB DPB COMMON COMMON PORT PORT RETURN RETURN LOSS (Pin=m) LOSS (Pin=m) Insertion Loss Return Loss Insertion Loss Return Loss DPB DPB DPB HIGH PASS PORT INSERTION LOSS (Pin=m) DPB HIGH PASS PORT INSERTION LOSS (Pin=m) DPB HIGH PASS PORT RETURN DPB LOSS (Pin=m) HIGH PASS PORT RETURN LOSS (Pin=m) A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. A. Performance C. The parts quality covered attributes by this specification conditions document not expressly are subject stated to Mini-Circuits this specification stard document limited warranty are intended terms to be excluded conditions (collectively, do not form Stard a part Terms ); of this specification Purchasers of document. this part are entitled B. Electrical specifications to the rights benefits performance contained data therein. contained For a full statement in this specification of the Stard document Terms are the based exclusive on rights Mini-Circuit s remedies applicable thereunder, established please visit Mini-Circuits test performance website criteria at measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at P.O. Box 35166, Brooklyn, NY (718) sales@minicircuits.com s@minicircuits.com 52 s@minicircuits.com ISO 91 ISO 141 AS 91 s@minicircuits.com P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com REV.A M EDU93 DPB URJ 1564 Page 2 of 3 A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. A. Performance C. The quality parts covered attributes by this conditions specification not document expressly are stated subject in this to Mini-Circuits specification stard document limited are warranty intended to be terms excluded conditions do not (collectively, form a part Stard of this specification Terms ); Purchasers document. of this part are entitled B. Electrical specifications to the rights performance benefits contained data therein. contained For a in full this statement specification of the Stard document Terms are based the exclusive on Mini-Circuit s rights applicable remedies thereunder, established please test visit performance Mini-Circuits criteria website at measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at s@minicircuits.com A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. Page 3 of 3 B. Electrical specifications performance data contained this P.O. specification Box 35166, document Brooklyn, are based NY on Mini-Circuit s applicable (718) established sales@minicircuits.com test performance criteria measurement instructions. A. Performance C. The quality parts covered attributes by this specification conditions not document expressly are stated subject in to this Mini-Circuits specification stard document limited are warranty intended to terms be excluded conditions do (collectively, not form a part Stard of this Terms ); specification Purchasers document. of this part are entitled Page 3 of 3 B. Electrical specifications to the rights performance benefits contained data therein. contained For a in full this statement specification of the Stard document Terms are based the exclusive on Mini-Circuit s rights applicable remedies thereunder, established please test visit performance Mini-Circuits criteria website at measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at

23 Docsis 3.1 Product Guide Surface Mount Diplexer Surface Mount Diplexer 75Ω DC to 12 MHz (DC-65, MHz) 75Ω DC to 12 MHz (DC-65, MHz) Operating Temperature -4 to 85 C RF Power Input 27m These ratings are not intended for continuous normal operation HIGH PASS PORT 7 LOW PASS PORT 9 COMMON PORT 18 GROUND 1-6,8,1-17,19, A L INDEX FOR REF A D TYP Outline Drawing inch Outline Dimensions ( mm ) B M C N D P B E TYP F TYP G TYP H TYP L E Q J PICK & PLACE SURFACE AREA T SQ. APPROX F R G.787. S H T J U Demo Board MCL P/N: TB-786+ Suggested PCB Layout (PL-435) K M N C+.3 D S TYP METALLIZATION SOLDER RESIST PCB L Pattern R TYP U D P Suggested Layout, Tolerance to be within ±.2 U K Wt. grams 3.8 Q Low insertion loss 75Ω Impedance Excellent return loss High rejection Applications Cable TV systems (DOCSIS 3.1 stanard) Multib radio systems Typical Performance Data at 25 C Functional Schematic DPB DPB CASE STYLE: PA2 Port Min. Unit Insertion Loss Low Pass DC High Pass Low Pass DC Pass B Return Loss High Pass DC Common Stop B Isolation Low Pass High Pass DC FREQUENCY INSERTION LOSS The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications RETURN LOSS Low Pass Port High Pass Port Common Port Low Pass Port High Pass Port Return Loss Return Loss Insertion Loss Insertion Loss DPB LOW PASS PORT INSERTION DPB LOSS LOW (Pin=m) PASS PORT INSERTION LOSS (Pin=m) DPB LOW PASS PORT RETURN DPB LOSS LOW (Pin=m) PASS PORT RETURN LOSS (Pin=m) Return Loss DPB DPB COMMON COMMON PORT PORT RETURN RETURN LOSS LOSS (Pin=m) (Pin=m) 1 Return Loss 3 4 Performance Charts Insertion Loss Insertion Loss Return Loss Return Loss DPB HIGH PASS PORT INSERTION DPB LOSS HIGH (Pin=m) PASS PORT INSERTION LOSS (Pin=m) DPB DPB HIGH PASS PORT DPB RETURN LOSS HIGH (Pin=m) PASS PORT RETURN LOSS (Pin=m) A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits P.O. stard Box 35166, limited warranty Brooklyn, NY terms conditions (718) (collectively, Stard sales@minicircuits.com Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 45 s@minicircuits.com REV.A M EDU94 DPB URJ 1564 Page 2 of 3

24 Docsis 3.1 Product Guide Surface Mount Diplexer Diplexer Surface Mount 75Ω DC to 12 MHz (DC-85, MHz) 75Ω DC to 12 MHz (DC-85, MHz) Operating Temperature -4 to 85 C RF Power Input 29m These ratings are not intended for continuous normal operation HIGH PASS PORT 7 LOW PASS PORT 9 COMMON PORT 18 GROUND 1-6,8,1-17,19, A L INDEX FOR REF A D TYP Outline Drawing inch Outline Dimensions ( mm ) B M C N D P B E TYP F TYP G TYP H TYP L E Q J PICK & PLACE SURFACE AREA T SQ. APPROX F R G.787. S H T J U Demo Board MCL P/N: TB-786+ Suggested PCB Layout (PL-435) K M N C+.3 D S TYP METALLIZATION SOLDER RESIST PCB L Pattern R TYP U D P Suggested Layout, Tolerance to be within ±.2 U Q K Wt. grams 3.8 Low insertion loss 75Ω Impedance Excellent return loss High rejection Applications Cable TV systems (DOCSIS 3.1 stanard) Multib radio systems DPB A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits P.O. stard Box 35166, limited warranty Brooklyn, NY terms conditions (718) (collectively, Stard sales@minicircuits.com Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at Typical Performance Data at 25 C Functional Schematic DPB CASE STYLE: PA2 Port Min. Unit Insertion Loss Low Pass DC High Pass Low Pass DC Pass B Return Loss High Pass DC Common Stop B Isolation Low Pass High Pass DC FREQUENCY INSERTION LOSS The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications RETURN LOSS Low Pass Port High Pass Port Common Port Low Pass Port High Pass Port REV.A M EDU87 DPB URJ 1564 Page 2 of 3 Docsis 3.1 Product Guide Insertion Loss Return Loss Return Loss Docsis 3.1 Product Guide Performance Charts Performance Charts DPB LOW PASS PORT INSERTION LOSS (Pin=m) DPB LOW PASS PORT RETURN LOSS (Pin=m) DPB LOW PASS PORT RETURN LOSS (Pin=m) DPB COMMON PORT RETURN LOSS (Pin=m) Insertion Loss Return Loss A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by A. this Performance specification quality document attributes are subject conditions to Mini-Circuits not expressly P.O. stard Box stated 35166, limited in this specification warranty Brooklyn, document NY terms are intended conditions (718) to be (collectively, excluded Stard sales@minicircuits.com do not form Terms ); a part Purchasers of this specification of this document. part are entitled B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at Page 3 of 3 C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject P.O. to Mini-Circuits Box 35166, P.O. stard Box Brooklyn, 35166, limited NY warranty Brooklyn, NY terms (718) conditions (718) (collectively, sales@minicircuits.com Stard sales@minicircuits.com Terms ); Purchasers of this part are entitled 57 to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at Page 3 of DPB DPB DPB HIGH PASS PORT INSERTION LOSS (Pin=m) DPB HIGH PASS PORT RETURN LOSS (Pin=m) DPB HIGH PASS PORT RETURN LOSS (Pin=m) s@minicircuits.com s@minicircuits.com ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 47 Insertion Loss Return Loss Return Loss DPB LOW PASS PORT INSERTION LOSS (Pin=m) DPB COMMON PORT RETURN LOSS (Pin=m) Insertion Loss Return Loss DPB HIGH PASS PORT INSERTION LOSS (Pin=m)

25 Docsis 3.1 Product Guide Surface Mount Diplexer Diplexer Surface Mount 75Ω DC to 12 MHz (DC-4, MHz) 75Ω DC to 12 MHz (DC-4, MHz) Operating Temperature -4 to 85 C RF Power Input 3m These ratings are not intended for continuous normal operation HIGH PASS PORT 7 LOW PASS PORT 9 COMMON PORT 18 GROUND 1-6,8,1-17,19, A L INDEX FOR REF A D TYP Outline Drawing inch Outline Dimensions ( mm ) B M C N D P B E TYP F TYP G TYP H TYP L E Q J PICK & PLACE SURFACE AREA T SQ. APPROX F R C+.3 U D P Suggested Layout, Tolerance to be within ±.2 G.787. S H T J U Demo Board MCL P/N: TB-786+ Suggested PCB Layout (PL-435) K M N D S TYP METALLIZATION SOLDER RESIST PCB L Pattern R TYP U Q K Wt. grams 3.8 Low insertion loss 75Ω Impedance Excellent return loss High rejection Applications Cable TV systems (DOCSIS 3.1 stanard) Multib radio systems Typical Performance Data at 25 C Functional Schematic DPB DPB CASE STYLE: PA2 Port Min. Unit Insertion Loss Low Pass DC High Pass Low Pass DC Pass B Return Loss High Pass DC Common Stop B Isolation Low Pass High Pass DC FREQUENCY INSERTION LOSS The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications RETURN LOSS Low Pass Port High Pass Port Common Port Low Pass Port High Pass Port Docsis 3.1 Product Guide Insertion Loss Insertion Loss Return Loss Return Loss Return Loss Return Loss Performance Charts DPB DPB LOW LOW PASS PASS PORT PORT INSERTION INSERTION LOSS LOSS (Pin=m) (Pin=m) DPB DPB LOW LOW PASS PASS PORT PORT RETURN RETURN LOSS LOSS (Pin=m) (Pin=m) DPB DPB COMMON COMMON PORT PORT RETURN RETURN LOSS LOSS (Pin=m) (Pin=m) Insertion Loss Insertion Loss Return Loss Return Loss DPB DPB HIGH HIGH PASS PASS PORT PORT INSERTION INSERTION LOSS LOSS (Pin=m) (Pin=m) DPB DPB HIGH HIGH PASS PASS PORT PORT RETURN RETURN LOSS LOSS (Pin=m) (Pin=m) DPB A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at A. Performance quality attributes conditions not expressly stated in this specification Mini-Circuits document are intended to be excluded do not form a part of this specification document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits P.O. stard Box 35166, limited warranty Brooklyn, NY terms conditions (718) (collectively, Stard sales@minicircuits.com Terms ); Purchasers of this part are entitled REV.A M EDU95 DPB URJ 1564 Page 2 of 3 A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. B. Electrical A. Performance specifications quality performance attributes data conditions contained not in expressly this specification stated in document this specification are based document on Mini-Circuit s are intended applicable to be excluded established test do not performance form a part criteria of this specification measurement document. instructions. C. The B. Electrical parts covered specifications by this specification performance document data are contained subject in to this Mini-Circuits specification stard document limited are warranty based on Mini-Circuit s terms applicable conditions established (collectively, test Stard performance Terms ); criteria Purchasers measurement of this part are instructions. entitled to C. the The rights parts covered benefits by contained this specification therein. For document a full statement are subject of the Stard to Mini-Circuits Terms stard the exclusive limited rights warranty remedies terms thereunder, conditions please visit (collectively, Mini-Circuits Stard website at Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do do not not form form a part a part of this of this specification specification document. document. B. Electrical B. Electrical specifications specifications performance performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document data contained this specification are subject to Mini-Circuits P.O. document stard Box 35166, are based limited warranty Brooklyn, on Mini-Circuit s NY terms applicable conditions (718) established (collectively, test Stard sales@minicircuits.com performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits P.O. stard Box 35166, limited warranty Brooklyn, NY terms conditions (718) (collectively, Stard sales@minicircuits.com Terms ); Terms ); Purchasers Purchasers of this of this part part are are entitled entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at Page 3 of 3 to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at Page 3 of 3 to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at P.O. P.O. Box Box 35166, 35166, Brooklyn, Brooklyn, NY NY (718) (718) sales@minicircuits.com sales@minicircuits.com s@minicircuits.com 48 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 49

26 POWER SPLITTERS/ COMBINERS Mini-Circuits offers a diverse range of RF splitter/combiners for DOCSIS 3.1 applications. Our selection includes models from 2 to 8 ways in-phase, as well as 2-way 18 hybrids. They come in a variety of case styles including core wire printed laminate, all models provide low insertion loss, high isolation minimal phase amplitude unbalance. FEATURES 2, 3, 4 8-Way Insertion Loss as low as.7 High Isolation, up to 3 Low Phase Amplitude Unbalance (as low as 1 /.1 ) Power Hling up to 1W Top Hat Feature on Core Wire Models 5 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 51

27 Surface Mount Power Splitter/Combiner 2-Way Ratings Operating Temperature -4 C to 85 C Power Input (as a splitter) Internal Dissipation 75Ω wideb, 5 to 125 MHz low insertion loss,.9 typ. protected under U.S. Patent 6,133,525 Applications DOCSIS 3.1 Systems cellular VHF/UHF communication systems CATV 5 to 125 MHz.5W max..125 W max. Function ADP Pin Number SUM PORT 1 PORT 1 3 PORT 2 4 GROUND 6 NOT USED 2,5 CASE STYLE: CD636 The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications Reel Size 7 1,, 5, 1,, 5 7, 5, 1,, , , 1 Min. Unit MHz Insertion Loss, above Isolation Phase Unbalance Degree Amplitude Unbalance VSWR (Port S) :1 VSWR (Port 1 Port 2) :1 TOTAL LOSS Docsis 3.1 Product Guide Outline Drawing PCB L Pattern Suggested Layout, Tolerance to be within ±.2 Outline Dimensions ( inch mm ) A B C D E F G ADP ADTL ADP ADP ADP TOTAL LOSS ISOLATION VSWR 1.4 ADTL ADTL S-1 S-2 #S-VSWR #1-VSWR #2-VSWR INSERTION LOSS INPUT RETURN LOSS FREQUENCY FREQUENCY 1 FREQUENCY INSERTION LOSS ISOLATION Outline Drawing A B C D E F G H J K L wt grams H J K L wt grams Typical Performance Data Demo Board MCL P/N: TB-243 Suggested PCB Layout (PL-141) Total Loss 1 Amplitude Isolation Phase VSWR VSWR VSWR Unbalance Typical Performance Unbalance Data S 1 2 (deg.) S-1 S-2 FREQUENCY INSERTION INPUT AMPLITUDE PHASE LOSS R. LOSS UNBALANCE UNBALANCE (Deg.) FREQUENCY PCB L Pattern Suggested Layout, Tolerance to be within ±.2 Outline Dimensions ( inch mm ) 1. Total Loss = Insertion Loss + 3 splitter loss. RETURN LOSS VSWR FREQUENCY Additional A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specifi cation document. B. Electrical A. Performance specifications quality attributes performance conditions data contained not expressly in this stated specification in this specification document document are based are intended on Mini-Circuit s to be excluded applicable do established not form a part test of performance this specification criteria document. measurement instructions. C. The B. Electrical parts covered specifications by this specification performance document data contained are subject in this specification to Mini-Circuits document stard are based limited on warranty Mini-Circuit s applicable terms established conditions test (collectively, performance Stard criteria Terms ); measurement Purchasers instructions. of this part are C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled entitled A. Performance to the rights quality benefits attributes contained conditions therein. not expressly For a full stated statement in this of specification the Stard document Terms are intended the exclusive to be excluded rights do remedies not form thereunder, a part of this please specification visit Mini-Circuits document. e/terms.jsp website at B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at 52 ISO 91 ISO 141 AS P.O. Box 35 P.O. Box 35166, Brooklyn, NY to the rights (718) benefits contained therein. For apps@minicircuits.com a full statement of the Stard Terms the exclusive 53 rights 7 remedies thereundersit Mini-Circuits website at 166, Brooklyn, NY sales@minicircuits.com s@minicircuits.com Page 2 of 2

28 D 3.1 P G 2-Way Power Splitters ADP M+ ADP M+ 75Ω 5 to 1 MHz CDP CDP Ω 5 to 1 MHz wideb, 5 to 1 MHz high isolation, 27 typ. protected under U.S. Patent 6,133,525 CASE STYLE: CD636 wideb, 5 to 1 MHz low insertion loss,.8 typ. excellent matching return loss, typ. CASE STYLE: TT ADP M+ Insertion Loss Above 3 Isolation Phase Unbalance (Deg.) Amplitude Unbalance , 5, 1,, , 1 NEW! CDP Insertion Loss Above 3 Isolation Phase Unbalance (Deg.) Amplitude Unbalance Port-S VSWR (:1) Port 1 & Operating Temperature -4 C to 85 C Power Input (as a splitter) 1W Internal Dissipation.125 W SUM Port 1 Port 1 3 Port 2 4 Ground 6 Externally connect together & isolate 2,5 Operating Temperature -4 C to 85 C Power Input (as a splitter) 1W Internal Dissipation.125 W SUM Port 6 Port 1 3 Port 2 4 Ground 1 Not used 2,5 Ext. resistor 165Ω 3,4 ADP-2--75M+ ADP Ω 5 to MHz SYPS SYPS Ω 5 to 275 MHz wideb, 5 to MHz low insertion loss,.5 typ. protected under U.S. Patent 6,133,525 CASE STYLE: CD542 wideb, 5 to 275 MHz low insertion loss,.8 typ. high isolation, 25 typ. CASE STYLE: AH2-2 Insertion Loss Above 3 Isolation Phase Unbalance (Deg.) Amplitude Unbalance 7, 5, 1,, , 7 11,, 5, 1,, , 1 Insertion Loss Above 3 Isolation Phase Unbalance (Deg.) Amplitude Unbalance ADP SYPS Operating Temperature -4 C to 85 C Power Input (as a splitter).5w Internal Dissipation.25 W SUM Port 1 Port 1 3 Port 2 4 Ground 6 Not used 2,5 Operating Temperature -4 C to 85 C Power Input (as a splitter).5 W Internal Dissipation.5 W SUM Port 8 Port 1 4 Port 2 5 Ground 1,2,3,6,7 54 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 55 Visit for pricing, availability, complete model information.

29 Docsis 3.1 Product top hat Guide Surface Mount Surface Mount top hat Power Splitter/Combiner CDP-2-122W-75+ Power Splitter/Combiner 2-Way 2-Way 75Ω 75Ω wideb, 1 to 125 MHz low insertion loss,.8 typ. good isolation, 21 typ. Applications DOCSIS 3.1 Systems cellular VHF/UHF communication systems 1 to 125 MHz 1 to 125 MHz Ratings Operating Temperature -4 C to 85 C Power Input (as a splitter) 1W max. Internal Dissipation.125W max. Function CDP-2-122W-75+ CASE STYLE: TT The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications Min. Unit MHz Insertion Loss Above Isolation Phase Unbalance Degree Amplitude Unbalance VSWR (Port S) : VSWR (Port 1-2) : Mainline loss includes theoretical power loss at coupled port. Pin Number SUM PORT 1 PORT 1 3 PORT 2 4 GROUND 6 NOT USED 2,5 TOTAL LOSS Docsis 3.1 Product Guide CDP-2-122W-75+ TOTAL LOSS 2. S-1 S Outline Drawing Outline Dimensions ( inch mm ) Total Loss 1 FREQUENCY S-1 S-2 ISOLATION PCB L Pattern Suggested Layout, Tolerance to be within ±.2 H J K L wt A B C D E F G H J K.3 wt grams grams Typical Typical Performance Data Data Amplitude INSERTION Unbalance LOSS Outline Drawing CDP-2-122W-75+ ISOLATION CDP-2-122W-75+ ADTL Demo Board MCL P/N: TB-565+ Suggested PCB Layout (PL-327) FREQUENCY FREQUENCY 1 FREQUENCY FREQUENCY FREQUENCY VSWR VSWR Total Loss = Insertion Loss + 3 splitter loss. INSERTION LOSS ADTL INSERTION LOSS PCB L Pattern Suggested Layout, Tolerance to be within ±.2 Outline Dimensions ( inch mm ) A B C D E F G Isolation Phase VSWR INPUT UnbalanceAMPLITUDE S R. LOSS (deg.) UNBALANCE RETURN LOSS ADTL INPUT RETURN LOSS VSWR PHASE 2 UNBALANCE (Deg.) CDP-2-122W-75+ VSWR #S-VSWR #1-VSWR #2-VSWR A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. Additional B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specifi cation document. A. to Performance the rights benefits quality contained attributes therein. conditions For a full statement not expressly of the Stard stated in Terms this specification the exclusive document rights are remedies intended thereunder, to be excluded please visit do Mini-Circuits not form a website part of at this specification document. B. Electrical A. Performance specifications quality attributes performance conditions data contained not expressly in this stated specification in this specification document document are based are intended on Mini-Circuit s to be excluded applicable do established not form a part test of performance this specification criteria document. measurement instructions. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable C. The B. Electrical parts covered specifications by this specification performance document data contained are subject in this specification to Mini-Circuits document stard are based limited on warranty Mini-Circuit s applicable terms established conditions test (collectively, performance Stard criteria Terms ); measurement Purchasers instructions. of this part are established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled REV. OR C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at M15138 entitled A. Performance to the rights quality benefits attributes contained conditions therein. not expressly For a full stated statement in this of specification the Stard document Terms are intended the exclusive to be excluded rights do remedies not form thereunder, a part of this please specification visit Mini-Circuits document. e/terms.jsp website at 44 s@minicircuits.com B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. ED CDP-2-122W-75+ JC/CP/AM C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at P.O. Box , Brooklyn, NY (718) sales@minicircuits.com Page 1 of 2 ISO 91 ISO 141 AS 91 P.O. Box 35 P.O. Box 35166, Brooklyn, NY to the rights (718) benefits contained therein. For apps@minicircuits.com a full statement of the Stard Terms the exclusive 57 rights 7 remedies thereundersit Mini-Circuits website at 166, Brooklyn, NY sales@minicircuits.com s@minicircuits.com Page 2 of 2

30 Surface Mount Power Splitter/Combiner 2-Way Applications DOCSIS 3.1 Systems VHF/UHF CATV cellular Ratings Operating Temperature -4 C to 85 C Power Input (as a splitter) 75Ω top hat low insertion,.8 typ. excellent amplitude unbalance,.3 typ. very good phase unbalance, 1. deg. typ. external resistor & capacitor required leads for excellent solderability low cost 1. Mainline loss includes theoretical power loss at coupled port. 5 to 125 MHz.5W max. Function Pin Number SUM PORT 6 PORT 1 3 PORT 2 4 GROUND 1 CONNECT 2,5 EXT. RESISTOR 15 Ω 3,4 EXT. CAPACITOR 1.5pF TCP X+ CASE STYLE: DB1627 7, 5, 1,, , Min. Unit MHz Insertion Loss Above Isolation Phase Unbalance Degree Amplitude Unbalance VSWR (Port S) :1 VSWR (Port 1-2) :1 2 OR 5 TO GND 7, 5, 1,, , TOTAL LOSS Docsis 3.1 Product Guide Total thickness:.13 inches MAX. TCP X+ TOTAL LOSS S-1 S-2 Outline Drawing Outline Dimensions ( inch mm ) A B C D E F G H J K wt grams INSERTION LOSS FREQUENCY.4 Lead #1 identifier shall be located in the cross hatched area shown PCB L Pattern Suggested Layout, Tolerance to be within ±.2 Total Loss 1 4 ADTL INSERTION LOSS 35 ISOLATION 3 25 Typical Performance Data Amplitude Unbalance Outline Drawing Isolation TCP X+ ISOLATION FREQUENCY Phase Unbalance (deg.) ADTL INPUT RETURN 1.6 LOSS VSWR TCP X+ ADTL Demo Board MCL P/N: TB-124 Suggested PCB Layout (PL-2) VSWR S VSWR 1 VSWR 2 S-1 S FREQUENCY INSERTION INPUT AMPLITUDE PHASE LOSS R. LOSS.1 UNBALANCE UNBALANCE (Deg.) Total Loss = Insertion Loss + 3 splitter loss FREQUENCY PCB L Pattern Suggested Layout, Tolerance to be within ±.2 Outline Dimensions ( inch mm ) A B C D E F G H J K L wt grams Typical Performance Data RETURN LOSS TCP X+ VSWR #S-VSWR #1-VSWR #2-VSWR FREQUENCY FREQUENCY Additional A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specifi cation document. B. Electrical A. Performance specifications quality attributes performance conditions data contained not expressly in this stated specification in this specification document document are based are intended on Mini-Circuit s to be excluded applicable do established not form a part test of performance this specification criteria document. measurement instructions. C. The B. Electrical parts covered specifications by this specification performance document data contained are subject in this specification to Mini-Circuits document stard are based limited on warranty Mini-Circuit s applicable terms established conditions test (collectively, performance Stard criteria Terms ); measurement Purchasers instructions. of this part are C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled entitled A. Performance to the rights quality benefits attributes contained conditions therein. not expressly For a full stated statement in this of specification the Stard document Terms are intended the exclusive to be excluded rights do remedies not form thereunder, a part of this please specification visit Mini-Circuits document. e/terms.jsp website at B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at 58 ISO 91 ISO 141 AS P.O. Box 35 P.O. Box 35166, Brooklyn, NY to the rights (718) benefits contained therein. For apps@minicircuits.com a full statement of the Stard Terms the exclusive 59 rights 7 remedies thereundersit Mini-Circuits website at 166, Brooklyn, NY sales@minicircuits.com s@minicircuits.com Page 2 of 2

31 Power Splitters/Combiners 2-Way Way-18 power splitters 75Ω 5 to 125 MHz SBTCJ X+ 44-Way Way- power splitters 75Ω 1 to 15 MHz SCA wideb, 5 to 125 MHz low insertion loss, 1.5 typ. leads for excellent solderability low cost NEW! SBTCJ Operating Temperature -4 C to 85 C Power Input (as a splitter) Insertion Loss Above 3 1. W Isolation Phase Unbalance (Deg.) Amplitude Unbalance Port-S VSWR (:1) Port 1 & Sum port 6 Port 1 (18 ) 1 Port 2 ( ) 3 Ground 4 Ext. inductor series 3-6hH 3 Ext. capacitor.8pf 3 to gnd Ext. capacitor 3.6pF 5 to gnd Ext. resistor 3.1Ω 5 to gnd Ext. resistor series 4.99Ω 1 Ground or not used 2 CASE STYLE: DB1627 The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications wideb, 1 to 15 MHz high isolation, 25 typ. excellent amplitude unbalance,.3 typ. SCA Operating Temperature -4 C to 85 C Power Input (as a splitter).5w Internal Dissipation Insertion Loss Above W Isolation Phase Unbalance (Deg.) Amplitude Unbalance SUM Port 3 Port 1 6 Port 2 7 Port 3 9 Port 4 1 Ground 1,2,4,5,8 CASE STYLE: DZ943 The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications Reel Size 7 7, 5, 1,, 1, 5, 1,, ,1 5, 1 3-Way 3 Way- power splitters 75Ω 5 to 1 MHz SYPS-3-12W Way 8 Way- power splitters 75Ω 5 to 125 MHz SCPA wideb, 5 to 1 MHz low insertion loss,.7 typ. good isolation, 25 typ. wide frequency b, 5 to 1 MHz, useable 5 to 13 MHz low amplitude unbalance,.2 typ. low phase unbalance, 2. deg. typ. CASE STYLE: AH2 The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications wideb, 5 to 125 MHz good isolation, 25 typ. shielded metal case CASE STYLE: HU1371 The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications Insertion Loss Above 4.8 Isolation Phase Unbalance (Deg.) Amplitude Unbalance Port-S VSWR (:1) Port 1 & 2 Insertion Loss Above 9 Isolation Phase Unbalance (Deg.) Amplitude Unbalance Port-S VSWR (:1) Port 1-8 SYPS-3-12W NEW! SCPA Operating Temperature -4 C to 85 C Power Input (as a splitter) Internal Dissipation 1W.15 W SUM Port 8 Port 1 1 Port 2 4 Port 3 5 Ground 2,3,6,7 Operating Temperature -4 C to 85 C Power Input (as a splitter) Internal Dissipation 1W.875 W SUM Port 1 Port 1 3 Port 2 4 Port 3 5 Port 4 6 Port 5 9 Port 6 1 Port 7 11 Port 8 12 Ground 2,7,8,13,14 6 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 61 Visit for pricing, availability, complete model information.

32 Surface Mount Docsis 3.1 Product Guide Power Surface Mount Splitter/Combiner 4-Way 75Ω 5 to 125 MHz Power Splitter/Combiner 4-Way 75Ω 5 to 125 MHz SCP SCP SCP SCP wideb, 5 to 125 MHz high isolation,25 typ excellent amplitude unbalance,.4 typ. Applications DOCSIS 3.1 Systems cellular CATV receivers/transmitters CASE STYLE: YY161 The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications Outline Drawing PCB L Pattern Demo Board MCL P/N: TB-184 Suggested PCB Layout (PL-175) Min. Unit MHz Insertion Loss, above Isolation Phase Unbalance Degree Amplitude Unbalance VSWR (Port S) :1 VSWR (Port 1-4) :1 Ratings Operating Temperature -4 C to 85 C Power Input (as a splitter) 1W max. Internal Dissipation.375W max. TOTAL LOSS Outline Dimensions ( inch mm ) A B C D E F G H J K M N P wt grams SCP TOTAL LOSS S-1 S-3 Suggested Layout, Tolerance to be within ±.2 Freq FREQUENCY ISOLATION Typical Performance Data Total Loss 1 Amp. Unbal. Isolation S-1 S-2 S-3 S Total Loss = Insertion Loss + 6 splitter loss. SCP ISOLATION FREQUENCY Phase Unbal. (deg.) VSWR S VSWR 1 VSWR 2 VSWR VSWR 3 VSWR SCP VSWR #S-VSWR #1-VSWR #3-VSWR FREQUENCY A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled REV. OR to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, 5 P.O. Box 35166, Brooklyn, NY emedies ther to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights r eunder please visit Mini-Circuits website at M15138 (718) sales@minicircuits.com SCP WP/CP/AM, please visit Mini-Circuits website at s@minicircuits.com Page 1 of 2 62 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 63 Function Pin Number SUM PORT 3 PORT 1 2 PORT 2 4 PORT 3 6 PORT 4 8 GND 1,5,7

33 HIGH-POWER REFLECTIVE MMIC SWITCHES For highly reliable signal routing in CATV broadb systems, Mini-Circuits offers a series of 75Ω MMIC switches made using Silicon-on-Insulator process technology with built-in CMOS drivers. Available in SPDT, SP3T, SP4T, SP5T SP6T designs, they provide extremely fast switching, low insertion loss, high isolation, high IP3 in tiny packages with very low current consumption. FEATURES Fast switching, 1.9 µs Insertion Loss as low as.38 High Isolation, up to 42 High IP3, up to +56 m High Power Hling, up to 3W Low Current Consumption, as low as 37 µa Tiny Size, 2x2mm 64 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 65

34 SPDT RF Switch Reflective RF Switch with internal driver. Single Supply Voltage, +2.3V to +4.8V, High Power 3W Product High Isolation, 42 typ. at 1 GHz Low insertion loss,.38 typ. at 1 GHz High IP3, 56 m typ. at 1 GHz Low current consumption, 37 µa typ. High Power, P.1 3W Typical Applications CATV systems SATCOM system Automated Test Stations 75Ω 5-3 MHz CASE STYLE: MT1818 SPDT RF Switch RF Electrical Speci ications (1), 5-3 MHz, T AMB =25 C, V DD = +2.3 to 4.8V JSW2-33DR-75+ Condition Min. Units 5 3 MHz Insertion Loss (2) (ON STATE) Isolation between Common port RF1/RF2 Ports 5 to to to to to to to to to General Description JSW2-33DR-75+ is a high power (35 m) reflective SPDT switch with integral CMOS driver, operates with single positive supply voltage while consuming, 37µA typical. JSW is a reflective short on output port in OFF state. It has been designed for very wideb operation of 5-3 MHz. It is packaged in a tiny 2mm x 2mm x.55mm package is rated MSL1 class 1B for ESD (HBM) Isolation between RF1 RF2 ports (3) Return Loss (ON STATE), all ports 1 to to to to to to 16 Simplified Schematic Pad Description to to 1 56 Input IP3 (V DD=3V) 1 to to 63 m to Input Compression (4) 5 to m Function Pad Number RF COM 2 RF Common/ SUM Port, (see Fig. 2) RF1 11 RF Out #1/In Port #1, (see Fig. 2) RF2 5 RF Out #1/In Port #2, (see Fig. 2) Control 7 CMOS Control IN VDD 9 Supply Voltage Description Enable 8 Shutdown mode enabled by connecting to logic low GND 1,3,4,6,1,12 Ground DC Operating Electrical Specifications Min. Units VDD, Supply Voltage V Supply Current 37 µa Control Enable Voltage Low.4 V Control Enable Voltage High 1.65 VDD V Control Current 1 µa Shutdown mode - Supply Current 7 µa : 1. Tested on Mini-Circuit s test board TB-723-N+ (see Characterization Test Circuit, Fig.1). 2. Insertion loss values include test board loss. 3. Enable voltage HI, either RF1 or RF2 are ON. 4. Do not exceed RF input power as shown in Absolute Maximum Rating table. Switching Specifications Min. Units Rise/Fall Time (1 to 9% or 9 to 1% RF) Switching Time, 5% CTRL to 9/1% RF.5 (Rise Time).7 (Fall Time) 1.9 (ON Time) 1.1 (OFF Time) µsec µsec Video Feedthrough, (control to 1.65V, freq.=1 KHz) 3. mv P-P 66 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 67

35 SPDT RF Switch Reflective RF Switch with internal driver. Single Supply Voltage, +2.3V to +4.8V, High Power 3W Product High IP3, +7 m typ. at 15 MHz High Power, P.1 3W High Isolation, 42 typ. at 1 GHz Low insertion loss,.38 typ. at 1 GHz Low current consumption, 37 µa typ. Typical Applications CATV systems SATCOM system Automated Test Stations CASE STYLE: MT Ω 5-3 MHz SPDT RF Switch 5 RF Electrical Speci ications (1), 5-3 MHz, T AMB =25 C, V DD = +2.3 to 4.8V JSW2-33HDR-75+ Condition Min. Units 5 3 MHz Insertion Loss (2) (ON STATE) Input IP3 (V DD=3V) 5 to to to to Input Compression (4) to m 5 to m General Description JSW2-33HDR-75+ is a high power (35 m) reflective SPDT switch with integral CMOS driver, operates with single positive supply voltage while consuming, 37µA typical. JSW is a reflective short on output port in OFF state. It has been designed for very wideb operation of 5-3 MHz. It is packaged in a tiny 2mm x 2mm x.55mm package is rated MSL1 class 1B for ESD (HBM) Isolation between Common port RF1/RF2 Ports Isolation between RF1 RF2 ports (3) 1 to to to to to to Simplified Schematic Pad Description to to 1 19 Return Loss (ON STATE), all ports 1 to to 16 to 3 17 Function Pad Number RF COM 2 RF Common/ SUM Port, (see Fig. 2) RF1 11 RF Out #1/In Port #1, (see Fig. 2) RF2 5 RF Out #1/In Port #2, (see Fig. 2) Control 7 CMOS Control IN VDD 9 Supply Voltage Description Enable 8 Shutdown mode enabled by connecting to logic low GND 1,3,4,6,1,12 Ground DC Operating Electrical Specifications Min. Units VDD, Supply Voltage V Supply Current 37 µa Control Enable Voltage Low.4 V Control Enable Voltage High 1.65 VDD V Control Current 1 µa Shutdown mode - Supply Current 7 µa : 1. Tested on Mini-Circuit s test board TB-723-N+ (see Characterization Test Circuit, Fig.1). 2. Insertion loss values include test board loss. 3. Enable voltage HI, either RF1 or RF2 are ON. 4. Do not exceed RF input power as shown in Absolute Maximum Rating table. Switching Specifications Min. Units Rise/Fall Time (1 to 9% or 9 to 1% RF) Switching Time, 5% CTRL to 9/1% RF.5 (Rise Time).7 (Fall Time) 1.9 (ON Time) 1.1 (OFF Time) µsec µsec Video Feedthrough, (control to 1.65V, freq.=1 KHz) 3. mv P-P 68 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 69

36 SP3T RF Switch Reflective RF Switch with internal driver. Single Supply Voltage, +2.5V to +4.8V Product High Isolation, 38 typ. at 1 GHz Low insertion loss,.7 typ. at 1 GHz High IP3, 59 m typ. at 1 GHz Low current consumption, 4 µa typ. Typical Applications CATV systems SATCOM system Automated Test Stations Telecom systems General Description JSW3-23DR-75+ is a reflective SPDT switch with integral driver, operates with single positive supply voltage while consuming, 4 µa typical. It has been designed for very wideb operation of 5- MHz. It is packaged in a tiny 14-lead 2mm x 2mm x.55mm package is rated MSL1 class 1B ESD. Simplified Schematic Pad Description CASE STYLE: MT Ω 5- MHz SPDT SP3T RF Switch JSW2-33HDR-75+ JSW3-23DR-75+ RF Electrical Specifications ications (1) (1), MHz, MHz, T T AMB =25 C, V DD = +2.3 to 4.8V AMB =25 C, V DD = +2.5 to 4.8V Condition Min. Units MHz Insertion Loss (2) (ON Insertion STATE) Loss (2) (ON STATE) Isolation between Common Port Input RF1 to IP3 RF3 (V DD=3V) Ports (3) 15 to to to to to to to Input Compression (4) 5 to to m Return Loss (ON STATE) RF-COM, RF1 to RF3 Ports 1 to to to Isolation between Common port RF1/RF2 Ports Input IP3 V DD=2.5 to 4.8V 15 5 to m V DD=3.V 1 to Input Compression (4) 15 to to m Isolation between RF1 RF2 ports (3) 1 to to m Function Pad Number Description RF COM 13 RF Common/ SUM Port RF1 3 RF Out #1/In Port #1 RF2 9 RF Out #2/In Port #2 GND 2 Ground GND 1 Ground RF3 1 RF Out #5/In Port #5 GND 11 Ground Ground Function Ground Ground Pad Number Control #1 7 Control IN #1 Control #2 6 Control IN #2 Control #3 5 Control IN #3 VDD 4 Supply Voltage GND Paddle Ground Not Used 8,12,14 No Connection Description DC Electrical Specifications to to to Return Loss (ON STATE), all ports Min. Units VDD, Supply Voltage 15 to V Supply Current (V DD = 3V) to µa Control Voltage Low.4 V Control Voltage High /V DD V Control Current.5 1. µa Shutdown Current at V DD = 3V 5 µa : 1. DC As measured Operating Mini-Circuit s Electrical test board TB F+ Specifications (see Characterization Test Circuit, Fig.1). 2. Insertion loss values are de-embedded from test board loss. 3. Isolations for other port combinations, see Tables 1 & 2 Min. Units 4. Do not exceed RF input power as shown in Absolute Maximum Rating table. VDD, Supply Voltage V Supply Current 37 µa Control Enable Voltage Low.4 V Control Enable Voltage High 1.65 VDD V Switching Specifications Control Current 1 µa Shutdown mode - Supply Current Min. 7 Units µa :.42 (Rise Time) 1. Rise/Fall Tested on Time Mini-Circuit s (1 to 9% test board or 9 TB-723-N+ to 1% RF) (see Characterization Test Circuit, Fig.1). µsec.84 (Fall Time) 2. Insertion loss values include test board loss. 3. Enable voltage HI, either RF1 or RF2 are ON. 1.9 (ON Time) Switching Time, 5% CTRL to 9/1% RF (ON/OFF) µsec 4. Do not exceed RF input power as shown in Absolute Maximum Rating table. 1.4 (OFF Time) Video Feedthrough, (control to 1.8V, freq.=1 KHz, V DD =3V) 4. mv P-P Switching Specifications Min. Units Rise/Fall Time (1 to 9% or 9 to 1% RF).5 (Rise Time).7 (Fall Time) µsec 7 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 71

37 SP4T RF Switch Reflective RF Switch with internal driver. Single Supply Voltage, +2.5V to +4.8V, High Power 3W Product High Isolation, 38 typ. at 1 GHz Low insertion loss,.7 typ. at 1 GHz High IP3, 59 m typ. at 1 GHz Low current consumption, 4 µa typ. High Power, P.1 3W Typical Applications CATV systems SATCOM system Automated Test Stations Telecom systems CASE STYLE: MT1817 General Description JSW4-23DR-75+ is a high power 3W reflective SP4T switch with integral driver, operates with single positive supply voltage while consuming, 4 µa typical. It has been designed for very wideb operation of 5- MHz. It is packaged in a tiny 14-lead 2mm x 2mm x.55mm package is rated MSL1 class 1B ESD. 75Ω 5- MHz SP4T RF Switch RF Electrical Speci ications (1), 5 - MHz, T AMB =25 C, V DD = +2.5 to 4.8V Condition Min. Units 5 MHz Insertion Loss (2) (ON STATE) Isolation between Common Port RF1 to RF4 Ports (3) Return Loss (ON STATE) RF-COM, RF1 to RF4 Ports 5 to to to to to to to to to 1 Input IP3 V DD=2.5 to 4.8V 5 to 5 55 V DD=3.V 1 to 59 JSW4-23DR Input Compression (4) 5 to 35 m m Simplified Schematic Pad Description Function Pad Number Description RF COM 13 RF Common/ SUM Port RF1 3 RF Out #1/In Port #1 RF2 9 RF Out #2/In Port #2 GND 2 Ground GND 1 Ground RF3 1 RF Out #5/In Port #5 RF4 11 RF Out #6/In Port #6 Ground Function Ground Pad Number Control #1 7 Control IN #1 Control #2 6 Control IN #2 Control #3 5 Control IN #3 VDD 4 Supply Voltage GND Paddle Ground Not Used 8,12,14 No Connection Description DC Electrical Specifications Min. Units VDD, Supply Voltage V Supply Current (V DD = 3V) 4 µa Control Voltage Low.4 V Control Voltage High /V DD V Control Current.5 1. µa Shutdown Current at V DD = 3V 5 µa : 1. As measured in Mini-Circuit s test board TB F+ (see Characterization Test Circuit, Fig.1). 2. Insertion loss values are de-embedded from test board loss. 3. Isolations for other port combinations, see Tables 1 & 2 4. Do not exceed RF input power as shown in Absolute Maximum Rating table. Switching Specifications Min. Units Rise/Fall Time (1 to 9% or 9 to 1% RF) Switching Time, 5% CTRL to 9/1% RF (ON/OFF).42 (Rise Time).84 (Fall Time) 1.9 (ON Time) 1.4 (OFF Time) µsec µsec REV. 5 Video Feedthrough, (control to 1.8V, freq.=1 KHz, V DD =3V) 4. mv P-P 72 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 73

38 SP5T RF Switch Reflective RF Switch with internal driver. Single Supply Voltage, +2.5V to +4.8V, High Power 3W Product High Isolation, 38 typ. at 1 GHz Low insertion loss,.7 typ. at 1 GHz High IP3, 59 m typ. at 1 GHz Low current consumption, 4 µa typ. High Power, P.1 3W Typical Applications CATV systems SATCOM system Automated Test Stations Telecom systems CASE STYLE: MT1817 General Description JSW5-23DR-75+ is a high power 3W reflective SP5T switch with integral driver, operates with single positive supply voltage while consuming, 4 µa typical. It has been designed for very wideb operation of 5- MHz. It is packaged in a tiny 14-lead 2mm x 2mm x.55mm package is rated MSL1 class 1B ESD. 75Ω 5- MHz SP5T RF Switch RF Electrical Speci ications (1), 5 - MHz, T AMB =25 C, V DD = +2.5 to 4.8V Condition Min. Units 5 MHz Insertion Loss (2) (ON STATE) Isolation between Common Port RF1 to RF5 Ports (3) Return Loss (ON STATE) RF-COM, RF1 to RF5 Ports 5 to to to to to to to to to 1 Input IP3 V DD=2.5 to 4.8V 5 to 5 55 V DD=3.V 1 to 59 JSW5-23DR Input Compression (4) 5 to 35 m m Simplified Schematic Pad Description Function Pad Number Description RF COM 13 RF Common/ SUM Port RF1 3 RF Out #1/In Port #1 RF2 9 RF Out #2/In Port #2 RF3 2 RF Out #3/In Port #3 RF4 1 RF Out #4/In Port #4 RF5 1 RF Out #5/In Port #5 GND 11 Ground Function Ground Pad Number Control #1 7 Control IN #1 Control #2 6 Control IN #2 Control #3 5 Control IN #3 VDD 4 Supply Voltage GND Paddle Ground Not Used 8,12,14 No Connection Description DC Electrical Specifications Min. Units VDD, Supply Voltage V Supply Current (V DD = 3V) 4 µa Control Voltage Low.4 V Control Voltage High /V DD V Control Current.5 1. µa Shutdown Current at V DD = 3V 5 µa : 1. As measured in Mini-Circuit s test board TB F+ (see Characterization Test Circuit, Fig.1). 2. Insertion loss values are de-embedded from test board loss. 3. Isolations for other port combinations, see Tables 1 & 2 4. Do not exceed RF input power as shown in Absolute Maximum Rating table. Switching Specifications Min. Units Rise/Fall Time (1 to 9% or 9 to 1% RF) Switching Time, 5% CTRL to 9/1% RF (ON/OFF).42 (Rise Time).84 (Fall Time) 1.9 (ON Time) 1.4 (OFF Time) µsec µsec Video Feedthrough, (control to 1.8V, freq.=1 KHz, V DD =3V) 4. mv P-P 74 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 75

39 SP6T RF Switch Reflective RF Switch with internal driver. Single Supply Voltage, +2.5V to +4.8V, High Power 3W 75Ω 5- MHz SP6T RF Switch 5 JSW6-23DR-75+ Product High Isolation, 38 typ. at 1 GHz Low insertion loss,.7 typ. at 1 GHz High IP3, 59 m typ. at 1 GHz Low current consumption, 4 µa typ. High Power, P.1 3W Typical Applications CATV systems SATCOM system Automated Test Stations Telecom systems CASE STYLE: MT1817 General Description JSW6-23DR-75+ is a high power 3W reflective SPDT switch with integral driver, operates with single positive supply voltage while consuming, 4 µa typical. It has been designed for very wideb operation of 5 - MHz. It is packaged in a tiny 14-lead 2mm x 2mm x.55mm package is rated MSL1 class 1B ESD. RF Electrical Speci ications (1), 5 - MHz, T AMB =25 C, V DD = +2.5 to 4.8V Condition Min. Units 5 MHz Insertion Loss (2) (ON STATE) Isolation between Common Port RF1 to RF6 Ports (3) Return Loss (ON STATE) RF-COM, RF1 to RF6 Ports 5 to to to to to to to to to 1 Input IP3 V DD=2.5 to 4.8V 5 to 5 55 V DD=3.V 1 to 59.1 Input Compression (4) 5 to 35 m m Simplified Schematic Pad Description Function Pad Number Description RF COM 13 RF Common/ SUM Port RF1 3 RF Out #1/In Port #1 RF2 9 RF Out #2/In Port #2 RF3 2 RF Out #3/In Port #3 RF4 1 RF Out #4/In Port #4 RF5 1 RF Out #5/In Port #5 RF6 11 RF Out #6/In Port #6 Function Pad Number Control #1 7 Control IN #1 Control #2 6 Control IN #2 Control #3 5 Control IN #3 VDD 4 Supply Voltage GND Paddle Ground Not Used 8,12,14 No Connection Description DC Electrical Specifications Min. Units VDD, Supply Voltage V Supply Current (V DD = 3V) 4 µa Control Voltage Low.4 V Control Voltage High /V DD V Control Current.5 1. µa Shutdown Current at V DD = 3V 5 µa : 1. As meaured in Mini-Circuit s test board TB-722-N+ (see Characterization Test Circuit, Fig.1). 2. Insertion loss values are deembedded from test board loss. 3. Isolations for other port combinations, see Tables 1 & 2 4. Do not exceed RF input power as shown in Absolute Maximum Rating table. Switching Specifications Min. Units Rise/Fall Time (1 to 9% or 9 to 1% RF) Switching Time, 5% CTRL to 9/1% RF (ON/OFF).42 (Rise Time).84 (Fall Time) 1.9 (ON Time) 1.4 (OFF Time) µsec µsec Video Feedthrough, (control to 1.8V, freq.=1 KHz, V DD =3V) 4. mv P-P 76 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 77

40 RF TRANSFORMERS Mini-Circuits offers an industry-leading selection of RF transformers for DOCSIS 3.1 compliant systems equipment. Our line includes a variety of configurations including balanced-to-balanced, balanced-to-unbalanced, unbalanced-to-balanced designs with impedance ratios ranging from 1:1 to 4:1. Featuring both core wire printed laminate case styles, all models offer excellent return loss, low insertion loss low unbalance. FEATURES Insertion Loss as low as.6 Impedance Ratios from 1:1 to 4:1 Various Configurations with without Center Taps Low Phase Amplitude Unbalance (as low as 1 /.1 ) Power Hling up to 1W Top Hat Feature on Core Wire Models 78 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 79

41 Surface Mount RF Transformer 75.5 to 1 MHz wideb,.5 to 1 MHz balanced transmission line excellent amplitude unbalance,.3 typ. phase unbalance, 1 deg. typ. in 1 bwidth protected under US patent 6,133,525 Electrical Specifications at 25 C Min. Impedance Ratio 1 ADTL CASE ST YLE: CD542 The +Suffix identifies RoHS Compliaoce. See our web site for RoHS Compliance methodologies qualifications -- Available Tape reel 7, 5, 1,, at no extra cos 5 Reel 13 Size 5, Devices/Reel 1 7", 5, 1,, 5 13" 5,1 Unit Ohm Outline Drawing f: '""CJ'LJ J L H TYP G TYP PCB L Pattern l rg TYP 8a l _J LK TYP L E J Suggested Layout, Tolerancetobcwithin::t.(X)'.2 ADTL Insertion Loss* Amplitude Unbalance MHz Outline Dimensions (i) A B c D E F G H K wt grams Phase Unbalance Insertion Loss is referenced to mid-b loss,.2 typ Degree Typical Performance Data FREQUENCY INSERTION INPUT AMPLITUDE LOSS R. LOSS UNBALANCE PHASE UNBALANCE (Deg.) Ratings Function Operating Temperature - C to 85 C PRIMARY DOT Storage Temperature -5 5 C to 1 C PRIMARY RF Power 1W SECONDARY DOT DC Current 3mA SECONDARY NOT USED Pin Number , Config.G (/) (/) ' ADTL INSERTION LOSS 4 6 FREQUENCY 8 1 ADTL INPUT RETURN LOSS 8 7 i 6 5 g 4 g; 3 lj----, G:i C'. 1 - I 4 6 FREQUENCY ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 81 Additional A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specifi cation document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at

42 Surface Mount RF Transformer 75Ω 5 to 18 MHz ADTL Outline Drawing ADTL wideb, 5 to 18 MHz balanced transmission line protected under US patent 6,133,525 CASE STYLE: CD542 The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications 7, 5, 1,, 5 13 Reel Size 5, Devices/Reel 1 7, 5, 1,, ,1 PCB L Pattern Min. Unit Suggested Layout, Tolerance to be within ±.2 Impedance Ratio 1 Ohm 5 18 MHz Insertion Loss* Amplitude Unbalance Outline Dimensions ( inch mm ) A B C D E F G H J K L wt grams Phase Unbalance * Insertion Loss is referenced to mid-b loss,.4 typ Degree FREQUENCY Typical Performance Data INSERTION LOSS INPUT R. LOSS AMPLITUDE UNBALANCE PHASE UNBALANCE (Deg.) Ratings Operating Temperature - C to 85 C RF Power DC Current 1W 3mA Function Pin Number PRIMARY DOT 1 PRIMARY 3 SECONDARY DOT 6 SECONDARY 4 NOT USED 2, Config. G INSERTION LOSS ADTL INSERTION LOSS FREQUENCY RETURN LOSS ADTL INPUT RETURN LOSS FREQUENCY 82 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 83 Additional A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specifi cation document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at

43 Surface Mount RF Transformer 75Ω top hat 4.5 to 3 MHz TC1-1-13M-75X+ Outline Drawing TC1-1-13M-75X+ wideb, 4.5 to 3 MHz balanced transmission line good return loss excellent amplitude unbalance,.7 typ. phase unbalance, 2 deg typ. in 1 bwidth plastic base with leads CASE STYLE: AT1521 The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications 7, 5, 1,, , 7, 5, 1,, , PCB L Pattern Min. Unit Impedance Ratio 1 Ohm MHz Insertion Loss* Amplitude Unbalance Phase Unbalance Degree * Insertion Loss is referenced to mid-b loss,.5 typ. Suggested Layout, Tolerance to be within ±.2 : 1. Case Material: Plastic 2. Termination Finish: Tin plate over Nickel plate. 3. Lead#1 identifier shall be located in the cross-hatched area shown, on bottom view. Identifier may be either a molded or marked feature. 4. Top-Hat total thickness:.13 inches max. Outline Dimensions ( inch mm ) A B C D E F G H J K wt grams Typical Performance Data FREQUENCY INSERTION LOSS INPUT R. LOSS AMPLITUDE UNBALANCE PHASE UNBALANCE (Deg.) Ratings Operating Temperature -4 C to 85 C RF Power.25W DC Current 3mA Function Pin Number PRIMARY DOT 6 PRIMARY 4 SECONDARY DOT 1 SECONDARY 3 NOT USED Config. G INSERTION LOSS INSERTION LOSS FREQUENCY RETURN LOSS INPUT RETURN LOSS FREQUENCY 84 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 85 Additional A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specifi cation document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at

44 Surface Mount RF Transformer 75Ω 5 to 3 MHz TC G2A+ Outline Drawing TC G2A+ suitable for tin/lead RoHS solder systems wideb, 5 to 3 MHz balanced transmission line good return loss, typ. at 1 b excellent amplitude unbalance,.3 typ. phase unbalance, 3 deg typ. in 1 bwidth CASE STYLE: AT224-3 The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications 7, 5, 1,, 5 13 Reel Size 1, Devices/Reel 7, 5, 1,, , PCB L Pattern Min. Unit Impedance Ratio 1 Ohm 5 3 MHz Insertion Loss* Amplitude Unbalance Phase Unbalance Degree * Insertion Loss is referenced to mid-b loss, 1. typ. Suggested Layout, Tolerance to be within ±.2 Outline Dimensions ( inch mm ) A B C D E F G H J K wt grams Typical Performance Data FREQUENCY INSERTION LOSS INPUT R. LOSS AMPLITUDE UNBALANCE PHASE UNBALANCE (Deg.) Ratings Operating Temperature -4 C to 85 C RF Power.25W DC Current 3mA Function Pin Number PRIMARY DOT 6 PRIMARY 4 SECONDARY DOT 1 SECONDARY 3 NOT USED Config. K INSERTION LOSS TC G2A+ INSERTION LOSS FREQUENCY RETURN LOSS TC G2A+ INPUT RETURN LOSS FREQUENCY 86 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 87 Additional A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specifi cation document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at

45 D 3.1 P G Balanced to Unbalanced top hat RF Transformer 1 to 75Ω 5 to 28 MHz TC X+ Outline Drawing TC X+ suitable for tin/lead RoHS solder systems wideb, 5 to 28 MHz balanced transmission line good return loss, typ. at 1 b excellent amplitude unbalance,.3 typ. CASE STYLE: AT1521 The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications 7, 5, 1,, 5 13 Reel Size 1, Devices/Reel 7, 5, 1,, , PCB L Pattern Min. Unit Impedance Ratio (secondary/primary) 1.33 Ohm 5 28 MHz Insertion Loss* Amplitude Unbalance Phase Unbalance Degree * Insertion Loss is referenced to mid-b loss, 1. typ. Measured in 75Ω system. Suggested Layout, Tolerance to be within ±.2 : 1. Case Material: Plastic 2. Termination Finish: Tin plate over Nickel plate. 3. Lead#1 identifier shall be located in the cross-hatched area shown, on bottom view. Identifier may be either a molded or marked feature. 4. Top-Hat total thickness:.13 inches max. Outline Dimensions ( inch mm ) A B C D E F G H J K wt grams Typical Performance Data FREQUENCY INSERTION LOSS INPUT R. LOSS AMPLITUDE UNBALANCE PHASE UNBALANCE (Deg.) Ratings Operating Temperature -4 C to 85 C RF Power.25W DC Current 3mA Function Pin Number PRIMARY DOT 6 PRIMARY 4 SECONDARY DOT 1 SECONDARY 3 NOT USED Config. K 3. INSERTION LOSS 3. INPUT RETURN LOSS INSERTION LOSS RETURN LOSS FREQUENCY FREQUENCY 88 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 89 Additional A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specifi cation document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at

46 Surface Mount RF Transformer 75Ω top hat 5 to 1 MHz TC1-1T-75X+ TC1-1T-75X+ DOCSIS 3.1 suitable plastic base with leads Applications impedance matching unbalance to balance transformation cable/catv broadb fiber networks CASE STYLE: AT1521 The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications Outline Drawing Outline Dimensions ( inch mm ) A B C D E F G H J K wt grams PCB L Pattern Min. Unit Impedance Ratio 1 Ohm 5 1 MHz Insertion Loss* Amplitude Unbalance Phase Unbalance Degree Return Loss *Insertion Loss is referenced to mid-b loss,.25 typ. Suggested Layout, Tolerance to be within ±.2 : 1. Case Material: Plastic 2. Termination Finish: Tin plate over Nickel plate. 3. Lead#1 identifier shall be located in the cross-hatched area shown, on bottom view. Identifier may be either a molded or marked feature. 4. Top-Hat total thickness:.13 inches max. FREQUENCY Typical Performance Data INSERTION LOSS INPUT R. LOSS AMPLITUDE UNBALANCE PHASE UNBALANCE (Deg.) Ratings Operating Temperature -4 C to 85 C RF Power.25W DC Current 3mA Function Pin Number PRIMARY DOT 6 PRIMARY 4 SECONDARY DOT 1 SECONDARY 3 SECONDARY CT 2 Config. A INSERTION LOSS TC1-1T-75X+ INSERTION LOSS RETURN LOSS TC1-1T-75X+ INPUT RETURN LOSS FREQUENCY FREQUENCY AMPLITUDE UNBALANCE TC1-1T-75X+ AMPLITUDE UNBALANCE FREQUENCY PHASE UNBALANCE (deg.) TC1-1T-75X+ PHASE UNBALANCE FREQUENCY 9 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 91

47 Surface Mount RF Transformer 75Ω 1 to 3 MHz 75Ω DOCSIS 3.1 suitable plastic base with leads top hat 1 to 3 MHz Applications impedance matching unbalance to balance transformation cable/catv broadb fiber networks TC4-6T-75X+ CASE STYLE: AT1521 The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications Outline Drawing Outline Dimensions ( inch mm ) PCB L Pattern A B C D E F G H J K wt grams TC4-6T-75X+ Min. Unit Impedance Ratio (secondary/primary) 4 Ohm 1 3 MHz Insertion Loss* Amplitude Unbalance Phase Unbalance Degree Return Loss *Insertion Loss is referenced to mid-b loss,.7 typ. Suggested Layout, Tolerance to be within ±.2 : 1. Case Material: Plastic 2. Termination Finish: Tin plate over Nickel plate. 3. Lead#1 identifier shall be located in the cross-hatched area shown, on bottom view. Identifier may be either a molded or marked feature. 4. Top-Hat total thickness:.13 inches max. FREQUENCY Typical Performance Data INSERTION LOSS INPUT R. LOSS AMPLITUDE UNBALANCE PHASE UNBALANCE (Deg.) Ratings Operating Temperature -4 C to 85 C RF Power.25W DC Current 3mA Function Pin Number PRIMARY DOT 6 PRIMARY 4 SECONDARY DOT 1 SECONDARY 3 SECONDARY CT 2 Config. Config. A INSERTION LOSS AMPLITUDE UNBALANCE TC4-6T-75X+ INSERTION LOSS FREQUENCY TC4-6T-75X+ AMPLITUDE UNBALANCE FREQUENCY RETURN LOSS PHASE UNBALANCE (deg.) TC4-6T-75X+ INPUT RETURN LOSS FREQUENCY TC4-6T-75X+ PHASE UNBALANCE FREQUENCY 92 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 93

48 Docsis 3.1 Product Guide Balanced top hat Docsis 3.1 Product Guide top hat RF Transformer Balanced 75Ω 1 to 18 MHz RF Transformer 75Ω 1 to 18 MHz suitable for tin/lead RoHS solder systems wideb, 1 to 18 MHz balanced transmission line good suitable return for loss, tin/lead typ. RoHS at 1 solder b systems excellent wideb, amplitude 1 to 18 unbalance, MHz.3 typ. aqueous balanced washable transmission line excellent good return intermod loss, suppression typ. at 1 b excellent amplitude unbalance,.3 typ. excellent intermod suppression TRS TRS CASE STYLE: TT The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications CASE STYLE: TT The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications Outline Drawing PCB L Pattern TRS Suggested Layout, Tolerance to be within ±.2 Min. Unit Impedance Ratio 1 Ohm Min MHz Unit Insertion Impedance Loss* Ratio Ohm MHz Amplitude Insertion Loss* Unbalance Amplitude Unbalance Phase Unbalance Degree Phase Unbalance Degree Primary Return Loss (Input) *Insertion Primary Loss Return is referenced Loss (Input) to mid-b loss,.25 typ *Insertion Loss is referenced to mid-b loss,.25 typ. Ratings Operating Temperature -4 C to 85 C Ratings RF Power 1W Operating Temperature -4 C to 85 C DC Current 3mA RF Power 1W DC Current 3mA Function Pin Number PRIMARY DOT 4 PRIMARY Function 1 Pin Number SECONDARY DOT PRIMARY DOT 2 4 SECONDARY PRIMARY 3 1 SECONDARY DOT 2 SECONDARY 3 Config. K Config. K FREQUENCY INSERTION LOSS Outline Dimensions ( inch mm ) A B C D E F G H J K L wt grams Typical Performance Data INSERTION LOSS INPUT R. LOSS AMPLITUDE UNBALANCE PHASE UNBALANCE (Deg.) TRS INSERTION LOSS FREQUENCY PHASE UNBALANCE (deg.) TRS PHASE UNBALANCE FREQUENCY 28 TRS INPUT RETURN LOSS 1. TRS AMPLITUDE UNBALANCE A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled A. to Performance the rights benefits quality contained attributes therein. conditions For a full statement not expressly of the Stard stated in Terms this specification the exclusive document rights are remedies intended thereunder, to be excluded please visit do Mini-Circuits not form a website part of at this specification document. B. A. Electrical Performance specifications quality attributes performance conditions data contained not expressly in this specification stated in this document specification are based document on Mini-Circuit s are intended applicable to be excluded established do test not performance form a part of criteria this specification measurement document. instructions. C. B. The Electrical parts covered specifications by this specification performance document data contained are subject in this to Mini-Circuits specification stard document limited are based warranty on Mini-Circuit s terms applicable conditions established (collectively, test Stard performance Terms ); criteria Purchasers measurement of this part instructions. are entitled C. to The the parts rights covered benefits by this contained specification therein. document For a full statement are subject of the to Stard Mini-Circuits Terms stard the exclusive limited warranty rights remedies terms thereunder, conditions please (collectively, visit Mini-Circuits Stard website Terms ); at Purchasers of this part are entitled A. to Performance the rights benefits quality contained attributes therein. conditions For a full statement not expressly of the Stard stated P.O. in Box Terms this specification 35166, the exclusive Brooklyn, document rights are NY remedies intended thereunder, to be excluded (718) sales@minicircuits.com please visit do Mini-Circuits not form a website part of at this specification document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable P.O. Box 35166, established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive Brooklyn, rights NY remedies thereunder, (718) please visit Mini-Circuits sales@minicircuits.com website at s@minicircuits.com s@minicircuits.com Page 1 of 2 94 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 95 REV. OR M ED TRS IG/CP/AM REV. OR M Page 1 of 2 ED TRS IG/CP/AM RETURN LOSS FREQUENCY AMPLITUDE UNBALANCE FREQUENCY

49 7, 5, 1,, , Transformers Transformers 7, 5, 1,, 5 CASE STYLE: CD542 The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications 13 5,1 CASE STYLE: AT224-3 The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications ADTL Ω 1 to 15 MHz TRS TRS Ω 1 t o 2 MHz wideb, 1 to 15 MHz balanced transmission line excellent amplitude & phase unbalance protected by US Patent 6,133,525 Ω Ratio Insertion Loss over frequency range Phase Unbalance (Deg) Amplitude Unbalance ADTL CASE STYLE: CD542 7, 5, 1,, , 1 wideb, 1 to 2 MHz balanced transmission line excellent amplitude unbalance Ω Ratio Insertion Loss over frequency range Phase Unbalance (Deg) Amplitude Unbalance TRS CASE STYLE: AT577-1 Operating Temperature - C to 85 C RF Power.5W DC Current 3mA Primary Dot 1 Primary 3 Secondary Dot 6 Secondary 4 Not used 2,5 Config. K Config. Operating Temperature -4 C to 85 C RF Power.5W DC Current 3mA Primary Dot 1 Primary 3 Secondary Dot 6 Secondary 4 Not used 2,5 Config. G Config. G TC G2+ 75Ω 5 to 3 MHz TC G2+ 75Ω to 3 MHz TC G2+ TX TX Ω to 125 MHz wideb, 5 to 3 MHz balanced transmission line excellent amplitude & phase unbalance Ω Insertion Loss Phase Amplitude Ratio Ω over frequency Insertion range Loss Unbalance Phase (Deg) Unbalance Amplitude Ratio over frequency range Unbalance (Deg) Unbalance (Click more Below details) for TC G TC G CASE STYLE: AT224-3 CASE STYLE: AT , 5, 1,, , wideb, to 125 MHz excellent return loss, 25 in 1 bwidth excellent amplitude balance,.4 typ. phase unbalance, 3 deg typ. R class transformer Ω Ratio Insertion Loss over frequency range Phase Unbalance (Deg) Amplitude Unbalance TX CASE STYLE: TT24 Operating Temperature -4 C to 85 C RF Power.25W DC Current 3mA Primary Dot 6 Primary Dot Primary 6 4 Primary Secondary Dot 4 1 Secondary Dot Secondary 1 3 Secondary Not used 3 2 Not used 2 Config. K Config. Operating Temperature - C to 85 C RF Power.25W DC Current 3mA Primary Dot 6 Primary 4 Secondary Dot 3 Secondary 1 Secondary CT 2 Not used 5 Config. A Config. A ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 97 Visit for pricing, availability, complete model information.

50 Matching Pads 5/75Ω Impedance Conversion Excellent VSWR,1.15 typ. Power Hling up to.5w BNC N-Type Connectors TEST ACCESSORIES To support your testing needs from R&D to production test, Mini-Circuits provides a vast array of products for lab environments. We ve highlighted a few of these products here, which we believe are uniquely applicable to testing in CATV systems, but we encourage you to visit our website to explore our full offering of test solutions accessories, which includes everything from adapters to integrated rack-mounted test systems. FLEX TEST TM 75Ω USB Smart Power Sensor CW Power Measurements Wide Dynamic, -3 to + m Fast Measurement Speed, 3ms Good VSWR, 1:3:1 User-Friendly GUI Software Included Built-in Measurement Applications Complete DLLs for 32/64-bit Windows Systems Included Complete Programming Instructions for Windows & Linux environments 75Ω Test Cables Performance Qualified to, flexures Return Loss up to 38 Low insertion loss Power Hling up to 338W Stainless Steel F-Type Connectors Available in Wide Variety of Lengths 98 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 99

51 Matching Pads BMP-575+ BMP /75Ω DC to MHz UNMP-575+ UNMP /75Ω DC to 3 MHz wideb DC to MHz excellent VSWR, 1.15 typ. excellent flatness CASE STYLE: FF747 Connectors 75ΩM-BNC 5ΩF-BNC wideb, DC to 3 MHz.5 watt rating rugged unibody construction off-the-shelf availability very low cost CASE STYLE: FF779 Connectors 75ΩM-N 5ΩF-N BMP-575+ Nom. Attenuation Flatness VSWR (:1) Power (W) DC ± ± ± UNMP-575+ Attenuation VSWR (:1) Power (W) Flatness Nom. DC ± ± ± Operating Temperature -55 C to 1 C RF Input Power.25W Operating Temperature -45 C to 1 C BMP-575R+ BMP-575R+ 5/75Ω DC to MHz UNMP UNMP /75Ω DC to 3 MHz wideb DC to MHz excellent VSWR, 1.15 typ. excellent flatness CASE STYLE: FF747 Connectors 75ΩM-BNC 5ΩF-BNC wideb, DC to 3 MHz excellent VSWR rugged unibody construction off-the-shelf availability very low cost CASE STYLE: FF779 Connectors 75ΩM-N 5ΩF-N Nom. Attenuation Flatness VSWR (:1) Power (W) Nom. Attenuation Flatness VSWR (:1) Power (W) BMP-575R+ DC ± ± ± UNMP DC ± ± ± Operating Temperature -55 C to 1 C RF Input Power.25W Operating Temperature -45 C to 1 C RF Input Power.5W 1 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 11 Visit for pricing, availability, complete model information. Mini-Circuits

52 Test Cables CBL-2FM Ω DC to 3 MHz CBL-6FM-75+ CBL-6FM Ω DC to 3 MHz wideb coverage, DC to 3 MHz extra rugged construction with strain relief for longer life stainless steel F-Male connectors for long mating-cycle life useful over temperature range, -55 C to 15 C triple shield cable for excellent shielding effectiveness flexible for easy connection & bend radius FLEX TEST CASE STYLE: ND Connectors Model Conn1 Conn2 F-MALE F-MALE CBL-2FM-75+ wideb coverage, DC to 3 MHz extra rugged construction with strain relief for longer life stainless steel F-Male connectors for long mating-cycle life useful over temperature range, -55 C to 15 C triple shield cable for excellent shielding effectiveness flexible for easy connection & bend radius FLEX TEST CASE STYLE: ND Connectors Model Conn1 Conn2 F-MALE F-MALE CBL-6FM-75+ Length (FT) CBL-2FM Insertion Loss Return Loss DC Length (FT) CBL-6FM Insertion Loss Return Loss DC uffix identifies RoHS Compliance. See our web site S Compliance methodologies qualifications Operating Temperature -55 C to 15 C Storage Temperature -55 C to 15 C Power Hling at 25 C, 338W at.5 GHz Sea Level 21W at 1 GHz 143W at 2 GHz 98W at 3 GHz Cable Construction Inner Conductor Dielectric Shield Solid Silver Plated Copper Clad Steel Solid PTFE Silver-Plated Copper Flat Ribbon Braid Aluminum-Polymide Tape Interlayer Silver-Plated Copper Braid (9%k) Blue FEP Jacket Connectors passivated stainless steel gold plated beryllium copper center contacts PTFE dielectric Jacket Interlayer Shield Inner Conductor Cable Cross Section Outer Shield Inner Shield Dielectric Operating Temperature -55 C to 15 C Storage Temperature -55 C to 15 C Power Hling at 25 C, 338W at.5 GHz Sea Level 21W at 1 GHz 143W at 2 GHz 98W at 3 GHz Cable Construction Inner Conductor Solid Silver Plated Copper Clad Steel Dielectric Solid PTFE Silver-Plated Copper Flat Ribbon Braid Shield Aluminum-Polymide Tape Interlayer Silver-Plated Copper Braid (9%k) Jacket Blue FEP Connectors passivated stainless steel gold plated beryllium copper center contacts PTFE dielectric Jacket Interlayer Shield Inner Conductor Cable Cross Section Outer Shield Inner Shield Dielectric CBL-3FM-75+ CBL-1MFM-75+ CBL-3FM Ω DC to 3 MHz CBL-1MFM Ω DC to 3 MHz wideb coverage, DC to 3 MHz extra rugged construction with strain relief for longer life stainless steel F-Male connectors for long mating-cycle life useful over temperature range, -55 C to 15 C triple shield cable for excellent shielding effectiveness flexible for easy connection & bend radius FLEX TEST CASE STYLE: ND Connectors Model Conn1 Conn2 F-MALE F-MALE CBL-3FM-75+ wideb coverage, DC to 3 MHz extra rugged construction with strain relief for longer life stainless steel F-Male connectors for long mating-cycle life useful over temperature range, -55 C to 15 C triple shield cable for excellent shielding effectiveness flexible for easy connection & bend radius FLEX TEST CASE STYLE: ND Connectors Model Conn1 F-MALE Conn2 F-MALE CBL-1MFM-75+ Length (FT) CBL-3FM Insertion Loss Return Loss DC Length (M) CBL-1MFM Insertion Loss Return Loss DC Operating Temperature -55 C to 15 C Storage Temperature -55 C to 15 C Power Hling at 25 C, 338W at.5 GHz Sea Level 21W at 1 GHz 143W at 2 GHz 98W at 3 GHz Cable Construction Inner Conductor Solid Silver Plated Copper Clad Steel Dielectric Solid PTFE Silver-Plated Copper Flat Ribbon Braid Shield Aluminum-Polymide Tape Interlayer Silver-Plated Copper Braid (9%k) Jacket Blue FEP Connectors passivated stainless steel gold plated beryllium copper center contacts PTFE dielectric Jacket Interlayer Shield Inner Conductor Cable Cross Section Outer Shield Inner Shield Dielectric Operating Temperature -55 C to 15 C Storage Temperature -55 C to 15 C Power Hling at 25 C, 338W at.5 GHz Sea Level 21W at 1 GHz 143W at 2 GHz 98W at 3 GHz Cable Construction Inner Conductor Solid Silver Plated Copper Clad Steel Dielectric Solid PTFE Silver-Plated Copper Flat Ribbon Braid Shield Aluminum-Polymide Tape Interlayer Silver-Plated Copper Braid (9%k) Jacket Blue FEP Connectors passivated stainless steel gold plated beryllium copper center contacts PTFE dielectric Jacket Interlayer Shield Inner Conductor Cable Cross Section Outer Shield Inner Shield Dielectric 12 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 13 Visit for pricing, availability, complete model information.

53 Wide Dynamic USB Smart Power Sensor 75Ω 1 khz to 25 MHz Product Wide bwidth, 1 khz to 25 MHz USB 5 Dynamic, Smart -3 to + mpower Sensor Good VSWR, 1.3:1 typ. 75Ω Fast measurement 1 khz speed, to 3 25 msec typ. MHz Product Automatic frequency calibration & temperature compensation Multi-sensor Wide bwidth, capability 1 khz (up to to 25 24) MHz Built 5 in Dynamic Application, Measurement -3 to + Software m Remote Good VSWR, operation 1.3:1 via typ. internet Effective, Fast measurement easy-to-use speed, Windows 3 msec GUI typ. Linux Automatic support frequency calibration & temperature compensation Compatible Multi-sensor with capability 32/64-bit (up Windows to 24) or Linux operating systems Supports Built in Application a wide range Measurement of programming Software environments (See application Remote operation note AN-49-1 via internet for details) Effective, easy-to-use Windows GUI Linux support Compatible with 32/64-bit Windows or Linux operating systems Supports a wide range of programming environments (See application note AN-49-1 for details) Typical Applications Turn almost any Windows or Linux PC into a Power Meter Pocket-sized portability for benchtop testing anywhere Remote location monitoring Automatic, scheduled data collection Typical Evaluate Applications high-power, multi-port devices with built-in Turn virtual almost couplers/attenuators any Windows or & Linux other PC software into a tools Power Meter Pocket-sized portability for benchtop testing anywhere Remote location monitoring Automatic, scheduled data collection Evaluate high-power, multi-port devices with built-in virtual couplers/attenuators & other software tools Mini-Circuits Power Meter Program for Smart USB Power Sensor PWR-2.5GHS-75 Installation CD Case Style: JL1337 Description PWR-2.5GHS-75 Installation CD USB smart Power Sensor Included Accessories PWRSN-2.5GHS-75 Power Sensor Head Case Style: JL1337 USB-CBL+ 6 ft data cable (USB Type-A Plug) PWR-SEN-CD Installation CD Description PWR-2.5GHS-75 USB smart Power Sensor Included Accessories PWRSN-2.5GHS-75 Power Sensor Head USB-CBL+ 6 ft data cable (USB Type-A Plug) PWR-SEN-CD Installation CD Mini-Circuits Power Meter Program for Smart USB Power Sensor PWR-2.5GHS-75 USB Smart Power Sensor Electrical Specifications (CW) 2, -3 m to + m, 1 khz to 25 MHz PWR-2.5GHS-75 Freq. Min. Units Electrical Specifications (CW) 2, -3 m to + m, 1 khz to 25 MHz Dynamic m Freq. Min. Units VSWR :1 Dynamic ±.1 - ± to +5 m VSWR ± ± 1..3 :1 Uncertainty of Power 25ºC Uncertainty of Power 25ºC Uncertainty of Power ºC to 5ºC Uncertainty of Power ºC to +5-3 to to to to to to to to to to m ±.1.5 ± ±.5 ± ±.5.1 ± ±.5.15 ± ±.1 ± ±.15.1 ± ± ± ± ± ºC ± % Measurement +12 to + m ± Linearity 25ºC ± %- Measurement Low Noise Mode Measurement Speed.1 25 msec Faster Mode Current (via host Low Noise Mode ma Measurement Speed.1-25 Faster Mode Current (via host USB) ma Minimum System Requirements Minimum System Requirements Interface Host operating system Interface Hardware Host operating system USB cable (supplied) Hardware USB cable (supplied) Absolute Requirements USB HID 32 Bit operating system: Windows 98, Windows Requirements XP, Windows Vista, Windows 7, Windows 8 64 Bit operating system: Windows Vista, Windows 7, Windows 8 USB Linux HID support: 32/64 Bit operating system 32 Pentium Bit operating II or higher, system: RAM Windows 256 Mb, 98 USB, Windows port XP, Windows Vista, Windows 7, Windows 8 64 Bit operating system: Windows Vista, Windows 7, Windows 8 Linux Power sensor support: to 32/64 be used Bit with operating the supplied systemusb cable only Pentium II or higher, RAM 256 Mb, USB port Power sensor to be used with the supplied USB cable only Absolute Ratings Operating Temperature C to 5 C Storage Temperature Ratings -3 C to 7 C Operating DC Voltage Temperature RF port C to 4V5 C Storage CW Power Temperature -3 C +25m to 7 C Operating in the range between operating power DC Voltage limits at absolute RF port maximum ratings for extended periods of time may result in reduced 4V life reliability. CW Power +25m Operating in the range between operating power limits absolute maximum ratings for extended periods of time may result in reduced life reliability. 2 All specifications apply to continuous wave (CW) signals. 3 Maximum continuous safe operational power limit: +23 m. Performance is guaranteed up to + m. 2 All specifications apply to continuous wave (CW) signals. 3 Maximum continuous safe operational power limit: +23 m. Performance is guaranteed up to + m. 14 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 15

54 CONTROL PRODUCTS Mini-Circuits voltage variable attenuators equalizers are perfect for systems where precise control over signal strength is needed. Our VVAs are ideal for adjusting the amplitude of input/output signals in Automatic Level Control (ALC) circuits, our Voltage Variable Equalizers allow operators to compensate for cable losses without having to measure the length of each cable, saving significant cost resources deployed in the field. All models are designed for 75Ω networks characterized to meet DOCSIS 3.1 bwidth requirements! Voltage Variable Attenuator Attenuation from 18 to 4 High linearity, +5 m IP3 No external bias or matching required Low power consumption Ideal for adjusting input/output signals in ALC circuits Voltage Variable Equalizer Adjustable attenuation slope High linearity, +5 m IP3 Low deviation from linear loss, ±.5 Low power consumption Enables easy compensation for cable loss 16 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com 17

55 Docsis 3.1 Product Guide Docsis 3.1 Product Guide o o o o For detailed performance specs & shopping online see web site A. Performance quality attributes conditions not expressly stated in this specification ISO document 91 ISO are 141 intended AS 91 to be CERTIFIED excluded do not form a part of this specification document. B. Electrical specifications P.O. Box 35166, performance Brooklyn, New data York contained in this (718) specification document Fax (718) are based The on Mini-Circuit s Design Engineers applicable Searchestablished Engine test performance Provides ACTUAL criteria Data Instantly measurement at minicircuits.com instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled IF/RF MICROWAVE COMPONENTS to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at : 1. Performance quality attributes conditions not expressly stated in this For detailed performance specs specification sheet are intended to be excluded do not form a part of this specification sheet. 2. Electrical specifications performance data contained herein are based on Mini-Circuit s applicable established test performance criteria measurement & shopping online see web site A. Performance quality attributes conditions not expressly stated in this specification ISO document 91 ISO are 141 intended AS 91 to be CERTIFIED excluded instructions. do not 3. form The a parts part covered of this by specification this specification document. sheet are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. Terms P.O. Box 35166, the exclusive Brooklyn, rights New remedies York thereunder, please (718) visit Mini-Circuits Fax (718) website at The Design Engineers Search Engine Provides ACTUAL Data Instantly at minicircuits.com C. The parts covered by this specification 78 document are subject to Mini-Circuits P.O. Box stard 35166, limited Brooklyn, warranty NY terms conditions (718) (collectively, Stard sales@minicircuits.com Terms ); Purchasers of this part are entitled IF/RF MICROWAVE COMPONENTS to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at : 1. Performance quality attributes conditions not expressly stated in this specification sheet are intended to be excluded do not form a part of this specification sheet. 2. Electrical specifications performance data contained herein are based on Mini-Circuit s applicable established test performance criteria measurement instructions. 3. The parts covered by this specification sheet are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications Docsis 3.1 Product Guide ISO 91 ISO 141 AS 91 CERTIFIED P.O. Box 35166, Brooklyn, New York (718) Fax (718) The Design Engineers Search Engine Provides ACTUAL Data Instantly at minicircuits.com IF/RF MICROWAVE COMPONENTS : 1. Performance quality attributes conditions not expressly stated in this specification sheet are intended to be excluded do not form a part of this specification sheet. 2. Electrical specifications A. Performance performance quality attributes data contained conditions herein are not based expressly on Mini-Circuit s stated in applicable this specification established document test performance are intended criteria to measurement be excluded instructions. do not 3. form The a parts part covered of this by specification this specification document. sheet are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard B. Electrical specifications Terms the exclusive performance rights data remedies contained thereunder, in this please specification visit Mini-Circuits document website are at based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at P.O. Box 35166, ISO Brooklyn, 91 ISO NY AS (718) sales@minicircuits.com P.O. Box 35166, Mini-Circuits Brooklyn, NY (718) apps@minicircuits.com 19 s@minicircuits.com 79 For detailed performance specs & shopping online see web site

56 Docsis 3.1 Product Guide DOCSIS 3.1 Docsis 3.1 Product Guide r r r r For detailed performance specs & shopping online see web site ISO 91 ISO 141 AS 91 CERTIFIED P.O. Box 35166, Brooklyn, New York (718) Fax (718) The Design Engineers Search Engine Provides ACTUAL Data Instantly at minicircuits.com A. Performance quality attributes conditions not expressly stated in this specification IF/RF document MICROWAVE are intended COMPONENTS to be excluded do not form a part of this specification document. B. Electrical specifications : 1. Performance performance quality data attributes contained conditions in this specification not expressly stated document in this are specification based on sheet Mini-Circuit s are intended applicable to be excluded established do not test form performance a part of this specification criteria sheet. measurement 2. Electrical instructions. specifications performance data contained herein are based on Mini-Circuit s applicable established test performance criteria measurement instructions. 3. The parts covered by this specification sheet are subject to C. The parts covered Mini-Circuits by this stard specification limited warranty document are terms subject conditions to Mini-Circuits (collectively, stard Stard limited For detailed performance specs Terms ); warranty Purchasers of terms this part are conditions entitled to the (collectively, rights benefits Stard contained Terms ); therein. Purchasers For a & full shopping statement of this online part of see the are web Stard entitled site to the rights Terms benefits the contained exclusive therein. rights For remedies a full statement thereunder, of the please Stard visit Mini-Circuits Terms website the exclusive ISO at 91 rights ISO 141 remedies AS 91 thereunder, CERTIFIED please visit Mini-Circuits website at P.O. Box 35166, Brooklyn, New York (718) Fax (718) The Design Engineers Search Engine Provides ACTUAL Data Instantly at minicircuits.com A. Performance quality attributes conditions not expressly stated in this specification IF/RF document MICROWAVE are intended COMPONENTS to be excluded do not form a part of this specification document. 8B. Electrical specifications : 1. Performance performance quality data attributes contained conditions this specification not expressly stated P.O. Box document in this 35166, are specification Brooklyn, based on sheet Mini-Circuit s are intended NY applicable to be excluded (718) established do not test form performance a part of this specification sales@minicircuits.com criteria sheet. measurement 2. Electrical instructions. specifications performance data contained herein are based on Mini-Circuit s applicable established test performance criteria measurement instructions. 3. The parts covered by this specification sheet are subject to C. The parts covered Mini-Circuits by this stard specification limited warranty document are terms subject conditions to Mini-Circuits (collectively, stard Stard limited Terms ); warranty Purchasers of terms this part are conditions entitled to the (collectively, rights benefits Stard contained Terms ); therein. Purchasers For a full statement of this part of the are Stard entitled to the rights Terms benefits the contained exclusive therein. rights For remedies a full statement thereunder, of the please Stard visit Mini-Circuits Terms website the exclusive at rights remedies thereunder, please visit Mini-Circuits website at 35 The +Suffix identifies 35 RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications The +Suffix identifies RoHS Compliance. See our web site for RoHS Compliance methodologies qualifications Docsis 3.1 Product Guide P.O. Box 35166, ISO 91 Brooklyn, ISO NY AS 91 (718) sales@minicircuits.com to the rights Terms benefits the contained exclusive therein. rights For remedies a full statement thereunder, of the please Stard visit Mini-Circuits Terms website the exclusive at rights remedies thereunder, please visit Mini-Circuits website at P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com s@minicircuits.com 81 ISO 91 ISO 141 AS 91 CERTIFIED P.O. Box 35166, Brooklyn, New York (718) Fax (718) The Design Engineers Search Engine Provides ACTUAL Data Instantly at minicircuits.com IF/RF MICROWAVE COMPONENTS A. Performance : quality 1. Performance attributes quality conditions attributes not expressly conditions stated not expressly in this stated specification in this specification document sheet are are intended intended to to be be excluded excluded do do not not form form a part a part of this of specification this specification sheet. 2. document. Electrical specifications B. Electrical specifications performance performance data contained data herein contained are based on in this Mini-Circuit s specification applicable document established are test based performance on Mini-Circuit s criteria applicable measurement established instructions. test 3. performance The parts covered criteria by this specification measurement sheet instructions. are subject to C. The parts covered Mini-Circuits by this stard specification limited warranty document are terms subject conditions to Mini-Circuits (collectively, stard Stard limited Terms ); warranty Purchasers of terms this part are conditions entitled to the (collectively, rights benefits Stard contained Terms ); therein. Purchasers For a full statement of this part of the are Stard entitled For detailed performance specs & shopping online see web site

57 Docsis 3.1 Product Guide Docsis 3.1 Product Guide Surface Mount Voltage Surface Mount Variable Equalizer 75Ω Voltage 5 to Variable 12 MHz Equalizer 75Ω 5 to 12 MHz Wide bwidth Low insertion loss Low deviation from linear loss, ±.5 typ. High Wide IP3 bwidth +5 m typ. Shielded Low insertion case loss Aqueous Low deviation washable from linear loss, ±.5 typ. High IP3 +5 m typ. Applications Shielded case Cable Aqueous loss washable compensation Instrumentation Applications Cable loss compensation Instrumentation, V+=5V DC unless otherwise noted RF OUT Function 6 Pin Number V CONTROL RF IN 3 1 V+ RF OUT 4 6 GROUND V CONTROL 2,5 3 A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable V+ established test performance criteria measurement 4 instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard T GROUND cuits website at 2,5 A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled 82 erms the exclusive rights to the rights benefits contained therein. For a full statement of the Stard T cuits website at remedies ther Mini-Circuits eunder, please visit M151xxx s@minicircuits.com Page erms the ISO exclusive 91 rights ISO 141 AS 91 P.O. Box 35166, Mini-Circuits Brooklyn, NY (718) apps@minicircuits.com 113 VAEQ of 5 EDR-11197/2 RAV remedies thereunder, please visit Mini-Cir s@minicircuits.com Page 3 of 5 P.O. Box 35166, Brooklyn, NY P.O. (718) Box , sale Brooklyn, NY (718) sales@minicircuits.com VAEQ Electrical Specifications at 25 C, V+=5V DC unless Condition otherwise noted Min. Units Storage Temperature -55 C to 1 C Ratings Input Power Operating Temperature +23 m C to 85 C Control voltage Storage Temperature 11 V -55 C to 1 C Supply Voltage (V+) Input Power 7 V +23 m Control voltage 11 V Supply Voltage (V+) 7 V CASE STYLE: HE MHz, Control Voltage, - 7V Insertion Loss Condition Min. Units 12 MHz, Control Voltage, - 7V MHz Deviation from Linear Loss Control Voltage - 7V ±.5 5 MHz, Control Voltage, - 7V IP3 Insertion Loss Control Voltage, 2.5-7V m 12 MHz, Control Voltage, - 7V Compression Deviation from Linear Loss Control Voltage, - 7V Control Voltage - 7V +3 ±.5 m Input Return Loss IP3 Control Voltage, - 7V Control Voltage, 2.5-7V m Output Return Loss 1 Compression Control Voltage, - 7V Control Voltage, 7V m Supply Voltage (V+) Input Return Loss Control Voltage, - 7V Control Voltage, 7V V Control Voltage 7V, Supply Output Current Return Loss Control Voltage, - 7V 13 ma Supply Voltage (V+) V Control Voltage V, Control Voltage, - 7V Control Current Supply Current Control Voltage 7V Control Voltage 7V, 12 Control Voltage 2.5V Control Voltage V, 1 16 ma ma Control Current Ratings Operating Temperature C to 85 C Control Voltage 7V 12 Control Voltage 2.5V INPUT Simplified Functional FILTER Diagram ATTENUATOR FILTER ATTENUATOR Function Control s@minicircuits.com VAEQ CASE STYLE: HE MHz INPUT Simplified Functional Diagram Control Pin Number RF IN 1 OUTPUT OUTPUT ma REV. X2 M151xxx VAEQ EDR-11197/2 RAV REV. X Page 2 of 5 Docsis 3.1 Product Guide Voltage Variable Equalizer Voltage Variable Equalizer Outline Drawing A J INDEX Outline Dimensions ( inch mm ) H E TOP SIDE BOTTOM SIDE B G F D SIDE VIEW METALLIZATION SOLDER RESIST PCB L Pattern Suggested Layout A B C D E F G H J K L M wt grams Demo Board MCL P/N: TB-549+ Suggested PCB Layout (PL-315) C VAEQ A. Performance quality attributes conditions not expressly stated in this specification document are intended to be excluded do not form a part of this specification document. B. Electrical specifications performance data contained in this specification document are based on Mini-Circuit s applicable established test performance criteria measurement instructions. C. The parts covered by this specification document are subject to Mini-Circuits stard limited warranty terms conditions (collectively, Stard Terms ); Purchasers of this part are entitled to the rights benefits contained therein. For a full statement of the Stard Terms the exclusive rights remedies thereunder, please visit Mini-Circuits website at L TYP. s@minicircuits.com K TYP. E M VAEQ Function Pin Number RF IN 1 RF OUT 6 V CONTROL 3 V+ 4 GROUND 2,5

58 DOCSIS 3.1 Speed: 1 Gbps downstream, 1 Gbps upstream Capacity: 5% more data over the same spectrum on existing HFC networks Efficiency: Increase cable modem energy efficiency. Quality: Reduce network delay, improving responsiveness for applications Migration: DOCSIS 3.1 modems are designed to co-exist with older versions, enabling incremental deployment based on market dem DOCSIS 3.1 Block Diagram Amp. Transformer Transformer Transformer Amp. VVA Variable Equalizer filter Coupler Diplexer RJ45/SFP Module Data Network processor FPGA (modulator/ Demodulator) DOCSIS MAC/PHY High speed DUC HP LP RF1 RF2 Amp. VVA Amp. Coupler Downstream RF monitoring LPF Amp. Upstream RF monitoring Synthesizer/ VCO Clock System 114 ISO 91 ISO 141 AS 91 P.O. Box 35166, Brooklyn, NY (718) apps@minicircuits.com

59 DOCSIS 3.1 The Next Generation Technology for CATV Broadb Direct Sales Brooklyn Missouri Europe Taiwan Visit minicircuits.com to explore our product portfolio. Technical Support NORTH AMERICA apps@minicircuits.com (718) SINGAPORE, INDONESIA MALAYSIA, THAILAND sales@minicircuits.com.my (64) ISRAEL app@ravon.co.il TAIWAN & PHILIPPINES robert@min-kai.com.tw EUROPE apps@uk.minicircuits.com INDIA apps@minicircuits.com CHINA sales@minicircuits.com Or yuanzhong@minicircuits.com s@minicircuits.com

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