A enuators Bias Ts Calibra on Kit for VNA DC Blocks Limiters Low Noise Amplifiers Modulators Notch Filters Power Amplifiers

Transcription

1 A enuators Bias Ts Calibra on Kit for VNA DC Blocks Limiters Low Noise Amplifiers Modulators Notch Filters Power Amplifiers Terminators

2 LiConn designs, develops, and manufactures high performance, high quality, and cost compe ve RF/Microwave products. The products cover frequency bands from several KHz up to 27GHz of cellular, PCS, 3G, C, X, Ku band and millimeter wave applica ons. We are dedicated to serve dynamic needs of telecommunica on, fiber op cs, medical and defense industries globally. COMMITMENT OEM Grade Performance and Quality Small Quan ty Always In Stock Very Compe ve Price Total Customer Sa sfac on KEY ADVANTAGES Super Wide Band, Low Noise Figure and Excep onal VSWR Speedy Turnaround for both Standard and Custom Products Flexible Order Quan ty: Low or High Volume QUALITY Precision Machine Housing MIL STD 22g RoHS Compliant 1% Tested Made in USA 3 Year Warranty Tel: Fax: LiConn, Inc.

3 A enuators Part Number Frequency A enua on VSWR VSWR RF Input Power RF Output Power (GHz) () Input Output Max. (W) Max. (W) LATTN4A DC ~ :1 1.25:1 2 1 LATTN6A DC ~ :1 1.25: Bias Ts Frequency Inser on Loss RF/DC RF Average VSWR V dd I dd Part Number Power Max. Max. (MHz) Max. () Isola on () Max. Max. (V) (W) (ma) LBST9A 1~ : LBST13A 2 ~ : LBST2A 2 ~ : LBST24A 2 ~ : LBST24A 25 ~ :1 32 5, LBST25512A 25 ~ :1 5 2, LBST95215A 95 ~ :1 5 6, DC Blocks Part Number Frequency Inser on Loss RF Power VSWR V dd (MHz) () Dissipa on Max.( W) Max. Max. (V) LDCB2A 1 ~ :1 16 LDCB24A 1 ~ :1 16 Dimension: x 1.3 X.4 Material: Aluminum 661 Finish: Clear Conduc ve Coa ng (Actual Size) Dimension: x.9 X.4 Material: Brass Finish: Gold Plated Tel: Fax: LiConn, Inc.

4 Limiters Part Number Frequency Inser on Loss RF Input Power P sat VSWR V dd (MHz) Max. () Max. (W) Max. (m) Max. Max. (V) LLDB9A 3 ~ :1 5 LLDB4A 1 ~ :1 5 Modulator Rising Falling Frequency Part Number Time Time Inser on Loss VSWR VSWR RF Input Power (GHz) (ns) (ns) () Input Output Max. (W) LPM535A.5 ~ :1 1.22:1 2 Notch Filter Part Number Frequency Lower Pass Band Upper Pass Band Notch Band Pass Band Power V dd I dd (MHz) Frequency Frequency Rejec on Inser on Handling (W) (V) (ma) LBNF912A 9 ~ 12 DC ~ 3 2 ~ Terminators Part Number Frequency RF Power VSWR (MHz) Average (W) Max. LR1A DC ~ :1 LR1C DC ~ 15 1 :1 LR2A DC ~ :1 LR2C DC ~ 15 2 :1 Dimension:.5 x.7 X.4 Material: Brass Finish: Gold Plated (Actual Size) Tel: Fax: LiConn, Inc.

5 Low Noise Amplifiers Frequency Gain Gain NF P 1 IP 3 VSWR V dd I dd Part Number Flatness (MHz) () (±) () (m) (m) Input/Output (V) (ma) LNA54A 5 ~ :1/: LNA625A 6 ~ :1/1.4:1 5 5 LNA24A 2 ~ :1/1.6:1 5 5 LNA913B 9 ~ :1/:1 5 5 LNA226A 2 ~ :1/1.4: LNA26B 2 ~ :1/:1 5 4 LNA814A 8 ~ :1/1.35: LNA814B 8 ~ :1/1.35: LNA235A 2 ~ :1/1.35: LNA1216A 12 ~ :1/1.3: LNA57A 5 ~ :1/1.35: LNA818A 8 ~ :1/: LNA16A 1 ~ :1/:1 5 3 LNA112A 1 ~ :1/1.25: LNA129A 12 ~ :1/1.7: Power Amplifiers Part Number Frequency Gain Gain NF P 1 IP 3 VSWR Max. V dd I dd (MHz) () Flatness () (m) (m) Input/Output (V) (ma) LPA115B.1 ~ :1/: LPA115A 1 ~ :1/: LPA16A 1 ~ :1/2.: LPA115A 1 ~ :1/2.2: LPA618A 6 ~ :1/2.: Part Number Frequency NF P Gain sat VSWR Reverse V dd I dd (MHz) () Input/Output Isola on () (m) (V) (ma) Max. Min. () LPA26A 2 ~ :1/2.4: Tel: Fax: LiConn, Inc.

6 DESIGNER KIT - DK1 DESIGNER KIT - DK2 Frequency: DC ~ 18GHz Frequency: DC ~ 27GHz Precision Machine Housing RoHS Compliant Precision Machine Housing RoHS Compliant Dimension: x 1.3 X.4 Material: Aluminum 661 Finish: Clear Conduc ve Coa ng PCB Core Thickness Supported: 2~4mil Dimension:.5 x.7 X.4 Material: Brass Finish: Gold Plated PCB Core Thickness Supported: 2mil Sub Model SMA Connector DK2 1 SMA Female x 2 DK2 2 SMA Male x 2 DK2 3 SMA Female x 1 SMA Male x 1 Tel: Fax: LiConn, Inc.

7 DC ~ 6. GHz SMA Precision Calibra on Kit for Vector Network Analyzer (VNA) High precision SMA calibra on Kits LCAL6A (Female Connec on), LCAL6B (Male Connec on) and LCAL6C (Female and Male Connec ons) for the calibra on of DC 6GHz Vector Network Analyzer (VNA). The Calabrian kit can be used for: Short Open Load Thru (SOLT) Line Reflect Match (LRM) Full Two Port Calibra on Dimension: 4.12" x 3.45" x " Material: Oak Dimension: 6" x 6" x.5" Material: ESD Safe Plas c Summary of the electrical specifica ons of a sample LCAL6A at 21 C: Index Tes ng Item Symbol Test Constraints Min. Nom. Max. Unit 1 Load Return Loss S 11, L DC 3.GHz GHz 35 2 Thru Return Loss S 11, T DC 3.GHz GHz 35 3 Thru Inser on Loss S 21, T DC 6.GHz.5 4 Thru Offset T to 55.7 ps 5 Load Offset T Lo ps 6 Short Offset T so 55.7 ps 7 Open Offset T oo 55.7 ps 8 Open Capacitance C F C F/Hz C F/Hz^2 C F/Hz^3 * Each Calibra on Kit will be measured for its own parameters. Tel: Fax: LiConn, Inc.

8 DC ~ 9. GHz SMA Precision Calibra on Kit for Vector Network Analyzer (VNA) High precision SMA calibra on Kits LCAL9A (Female Connec on) for the calibra on of DC ~ 9 GHz Vector Network Analyzer (VNA). The Calabrian kit can be used for: Short Open Load Thru (SOLT) Line Reflect Match (LRM) Full Two Port Calibra on Dimension: 4.12" x 3.45" x " Material: Oak Dimension: 6" x 6" x.5" Material: ESD Safe Plas c Summary of the electrical specifica ons of a sample LCAL9A at 21 C: Index Tes ng Item Symbol Test Constraints Min. Nom. Max. Unit DC ~ 3. GHz 4 1 Load Return Loss S 11, L 3. ~ 9. GHz 35 DC ~ 3. GHz 4 2 Thru Return Loss S 11, T 3. ~ 9. GHz 35 3 Thru Inser on Loss S 21, T DC ~ 9. GHz.1 4 Thru Offset T to ps 5 Load Offset T Lo ps 6 Short Offset T so ps 7 Open Offset T oo ps 8 Open Capacitance * Each Calibra on Kit will be measured for its own parameters. C F C F/Hz C F/Hz^2 C F/Hz^3 Tel: Fax: LiConn, Inc.

9 FEATURED PRODUCT LATTN4A Product Description: LATTN4A (DC ~ 4 GHz 2 Watt Precision Attenuator) Key Performance Ratio Attenuation & 25 C VSWR1 VSWR2 LiConn has developed wide band Attenuator with low cost. The attenuator offers maximum 8.5 attenuation and 1.2:1 maximum VSWR throughout DC to 4 GHz band. The attenuator can be used in varieties of circuitries such as high power testing and power monitoring. The attenuator is designed to meet MIL-STD-22g DC ~ 4 GHz 1.2:1 MAX VSWR Attenuation: 8.3 RF CW Input Power: 2 W SMA Connector I/O Miniature Size RoHS Compliance Typical Performance (Tc=25 C) Parameters Min Typ. Max. Units Frequency DC 4 GHz Attenuation VSWR - Input 1.1:1 1.2:1 Ratio VSWR - Output 1.25:1 Ratio RF CW Input Power 2 W RF CW Output Power 1 W Outline Absolute Maximum Ratings Parameters Units Ratings RF Peak Power W 5 Thermal Resistance, Junction to Case C/W Storage Temperature C -65 ~ 15 Operating Temperature C -54 ~ +85 *Operation beyond any one of these parameters may cause permanent damage. Application High Power Test Power Monitoring Order Information Model Number LATTN4A Unit: Inch[mm] Base Material: Brass Finish: Gold Plating ADDITIONAL HEAT SINK REQUIRED AND AVAILABLE! Rev 1.1 Copyright 21 LiConn, Inc. For latest product information, please visit

10 FEATURES: DC ~ 6. GHz; 33. Attenuation; 3 W CW Power Handling; +/- Variation; 1.25:1 VSWR; RoHS Compliant APPLICATIONS: Cellular; GPS; PCS; 3G; WiMAX; C-Band; Test & Measurement; LATTN6A: DC ~ 6. GHz 3W (CW), 33 ATTENUATOR ELECTRICAL 25 C ABSOLUTE MAXIMUM RATINGS * Item Parameters/Conditions Unit Min Nom Max Z Impedance Ohm 5 F Operating Frequency GHz DC 6 IL Attenuation ΔIL Attenuation Variation +/-1 P IN,MAX Input Maximum CW PWR W 3 35 P O,MAX Output Maximum CW PWR W 1 2 VSWR 1 VSWR Input Ratio 1.25:1 :1 VSWR 2 VSWR Output Ratio 1.25:1 :1 Parameters/Conditions Unit Max Input Maximum CW PWR W 35 Output Maximum CW PWR W 2 Maximum Operating Temp o C 7 Thermal Resistance, Junction to Case o C/W *Operation beyond any one of these parameters may cause permanent damage Additional Heat Sink Required! ELECTRICAL PERFORMANCE MECHANICAL OUTLINE Load Return Loss, 25 C ,, VSWR1 VSWR Ratio ORDERING INFORMATION Model Number Input Output LATTN6A-1 SMA Male SMA Female LATTN6A-2 SMA Female SMA Male LATTN6A-3 SMA Male SMA Male LATTN6A-4 SMA Female SMA Female Rev 1.4 Copyright 212 LiConn, Inc.

11 FEATURED PRODUCT LBST9A Product Description: LBST9A (1. MHz ~ 9. GHz Bias-T) Key Performance VSWR (Ratio :1) VSWR Typical 21 C LiConn has developed super wide band Bias-T with low cost. The bias-t offers maximum.6 insertion loss and maximum 1.22:1 VSWR throughout 1MHz to 9GHz band. The Bias-T can be used in varieties of circuitries such as wide band amplifiers, broadcast, and measurement. The bias-t is designed to meet MIL-STD-22g () 1 MHz ~ 9 GHz Max 1.22:1 VSWR Max.6 Insertion Loss 5 Volts DC Voltage Rating 4 RF/DC Isolation SMA Connector I/O Miniature Size RoHS Compliant Ordering Information Model Number RF+DC Port RF Port LBST9A-1 SMA Male SMA Female LBST9A-2 SMA Female SMA Male LBST9A-3 SMA Male SMA Male LBST9A-4 SMA Female SMA Female Outline Absolute Maximum Ratings Parameters Units Ratings RF Average Power W 5 Maximum DC Voltage Rating V 5 Maximum DC Current ma 17 RF/DC Isolation 4 Operating Temperature C -54 ~ +85 Storage Temperature C -65 ~ 15 *Operation beyond any one of these parameters may cause permanent damage. Unit: INCH Base Material: Brass [mm] Finish: Gold Plating Tolerance: X.XXX ±.5" X.XX ±.1" Copyright 29 LiConn, Inc. For latest product information, please visit

12 FEATURED PRODUCT LBST13A Product Description: LBST13A (2. MHz ~ 12.7 GHz Bias-T) Key Performance & () Insertion Loss and 21 C VSWR1 VSWR LiConn has developed super wide band Bias-T with low cost. The bias-t offers.5 typical insertion loss and 1.2:1 typical VSWR throughout 2 MHz to 12.7 GHz band. The Bias-T can be used in varieties of circuitries such as wide band amplifiers, broadcast, and measurement. The bias-t is designed to meet MIL-STD-22g VSWR1 & VSWR2 (Ratio :1) 2 MHz ~ 12.7 GHz 1.2:1 Typical VSWR 1.3:1 Max. VSWR.5 Typical Insertion Loss.8 Max. Insertion Loss 4 RF/DC Isolation 5 Volts DC voltage Rating SMA Connector I/O Miniature Size RoHS Compliant Ordering Information Model Number RF+DC Port RF Port LBST13A-1 SMA Male SMA Female LBST13A-2 SMA Female SMA Male LBST13A-3 SMA Male SMA Male LBST13A-4 SMA Female SMA Female Absolute Maximum Ratings Parameters Units Ratings RF Average Power W 2 Maximum DC Voltage Rating V 5 Maximum DC Current ma 24 Operating Temperature C -54 ~ +85 Storage Temperature C -65 ~ 15 *Operation beyond any one of these parameters may cause permanent damage. Outline Unit: INCH Base Material: Brass [mm] Finish: Gold Plating Tolerance: X.XXX ±.5" X.XX ±.1" Copyright 29 LiConn, Inc. For latest product information, please visit

13 FEATURED PRODUCT LBST2A Product Description: LBST2A (2. MHz ~ 2. GHz Bias-T) Key Performance VSWR(Ratio) VSWR & Insertion 21 C VSWR LiConn has developed super wide band Bias-T with low cost. The bias-t offers maximum insertion loss and maximum :1 VSWR throughout 2MHz to 2GHz band. The Bias-T can be used in varieties of circuitries such as wide band amplifiers, broadcast, and measurement. The bias-t is designed to meet MIL-STD-22g () 2. MHz ~ 2. GHz <:1 VSWR < Insertion Loss 4 RF/DC Isolation 16 Volts DC Voltage Rating SMA Connector I/O Miniature Size RoHS Compliant Ordering Information Model Number RF+DC Port RF Port LBST2A-1 SMA Male SMA Female LBST2A-2 SMA Female SMA Male LBST2A-3 SMA Male SMA Male LBST2A-4 SMA Female SMA Female Absolute Maximum Ratings Parameters Units Ratings RF Average Power W 2 Maximum DC Voltage Rating V 16 Maximum DC Current ma 25 Operating Temperature C -54 ~ +85 Storage Temperature C -65 ~ +15 *Operation beyond any one of these parameters may cause permanent damage. Outline Unit: INCH Base Material: Brass [mm] Finish: Gold Plating Tolerance: X.XXX ±.5" X.XX ±.1" Copyright 29 LiConn, Inc. For latest product information, please visit

14 FEATURED PRODUCT LBST24A Product Description: LBST24A (2. MHz ~ 24. GHz Bias-T) Key Performance VSWR (Ratio :1) SWR1 VSWR & Insertion 21 C SWR LiConn has developed super wide band Bias-T with low cost. The bias-t offers maximum insertion loss and maximum :1 VSWR throughout 2MHz to 24GHz band. The Bias-T can be used in varieties of circuitries such as wide band amplifiers, broadcast, and measurement. The bias-t is designed to meet MIL-STD-22g Insertion Loss () 2. MHz ~ 24. GHz <:1 VSWR < Insertion Loss 4 RF/DC Isolation 16 Volts DC Voltage Rating SMA Connector I/O Miniature Size RoHS Compliant Ordering Information Model Number RF+DC Port RF Port LBST24A-1 SMA Male SMA Female LBST24A-2 SMA Female SMA Male LBST24A-3 SMA Male SMA Male LBST24A-4 SMA Female SMA Female Absolute Maximum Ratings Parameters Units Ratings RF Average Power W 2 Maximum DC Voltage Rating V 16 Maximum DC Current ma 25 Operating Temperature C -54 ~ +85 Storage Temperature C -65 ~ 15 *Operation beyond any one of these parameters may cause permanent damage. Outline Unit: INCH Base Material: Brass [mm] Finish: Gold Plating Tolerance: X.XXX ±.5" X.XX ±.1" Copyright 212 LiConn, Inc. For latest product information, please visit

15 FEATURES: 25 MHz ~ 4. GHz;.6 Insertion Loss; 5. Amp DC Current; 2 Watts RF CW Power; 32 Volt DC Rating; RoHS Compliant. APPLICATIONS: SW; VHF, UHF; Cellular; PCS, 3G; L, S, & C Band. LBST24A, 25 MHz ~ 4. GHz WIDE BAND 5. AMP BIAS-T ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max f Passband MHz 25 4 IL Insertion Loss.6 I dc DC Current Handling A 5. V dc DC Voltage Handling V 32 P o RF CW Power Handling W 2 VSWR ij Input/Output VSWR Ratio 1.35:1 :1 Z Impedance Ohm 5 Parameters/Conditions Unit Maximum Channel Temperature C +15 DC Supply Voltage V 32 DC Current A 5. RF CW Power W 2 Operating Temperature C -4 ~ +85 Storage Temperature C -65 ~ +125 [1] Operation beyond these limits may cause permanent damage. /() ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE VSWR & Insertion Loss, Uper 21 C VSWR1 VSWR VSWR (Ratio :1) /() Lower Band 21 C VSWR1 VSWR VSWR (Ratio :1) Heat Sink Required For CW High Power Application! ORDERING INFORMATION: LBST24A Unit: INCH Base Material: Aluminium Alloy 661 [mm] Finish: RoHS Compliant Conductive Plating Tolerance: X.XXX ±.5" X.XX ±.1" Rev 1.3 Copyright 213 LiConn, Inc.

16 FEATURES: 25 MHz ~ 512 MHz;.6 Insertion Loss; 2 Amp DC Current; 2 Watts RF CW Power; 5 Volt DC Rating; RoHS Compliant. APPLICATIONS: SW; VHF, UHF. ORDERING INFORMATION: Model Number RF RF+DC LBST25512A-1 N Female N Female LBST25512A-2 N Female N Male LBST25512A-3 N Male N Female LBST25512A-4 N Male N Male LBST25512A, 25 MHz ~ 512 MHz WIDE BAND 2 AMP BIAS-T ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max f Passband MHz IL Insertion Loss.6 I dc DC Current Handling A 2 V dc DC Voltage Handling V 5 P o CW RF Power Handling W 2 VSWR ij Input/Output VSWR Ratio 1.35:1 :1 Z Impedance Ohm ELECTRICAL PERFORMANCE Pass Band 21 C -1-2 Parameters/Conditions Unit Maximum Channel Temperature C +15 CW RF Power W 2 DC Current A 2 DC Supply Voltage V 5 Operating Temperature C -4 ~ +7 Storage Temperature C -65 ~ + 85 [1] Operation beyond these limits may cause permanent damage. Heat sink is required for CW high power application! S11, S22 () S11 S , () MECHANICAL OUTLINE Unit: INCH Base Material: Aluminium Alloy 661 [mm] Finish: RoHS Compliant Conductive Plating Tolerance: X.XXX ±.5" X.XX ±.1" Rev 1.6 Copyright 214 LiConn, Inc.

17 FEATURES: 95 MHz ~ 215 MHz;.2 Insertion Loss; 6. Amp DC Current; 2 Watts CW RF Power; 5 Volt DC Rating; RoHS Compliant. APPLICATIONS: Cellular; GPS; PCS, 3G. LBST95215A, 95 MHz ~ 215 MHz WIDE BAND 6. AMP BIAS-T ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max f Passband MHz IL Insertion Loss: DC to 1MHz, Ports: DC to DC+RF.1.3 VSWR Return VSWR: DC to 1MHz, Ports: DC to DC+RF Ratio :1 IL Insertion Loss: MHz, Ports: RF+DC to RF.1.3 VSWR Return VSWR: MHz, Ports: RF+DC to RF Ratio 1.22:1 :1 I dc DC Current Handling A 6. V dc DC Voltage Handling V 5 P o RF CW Power Handling W 2 S 12 Reverse Isolation: MHz, 4 Ports: RF+DC to DC, RF to DC Z Impedance Ohm 5 Parameters/Conditions Unit Maximum Channel Temperature C +15 CW RF Power W 2 DC Supply Voltage V 5 DC Current A 6. Operating Temperature C -4 ~ +85 Storage Temperature C -65 ~ +125 [1] Operation beyond these limits may cause permanent damage. Heat Sink Required For CW High Power Application! & () VSWR & Insertion Loss, RF+DC to RF 21 C 6. VSWR1 VSWR ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE VSWR (Ratio :1) DC to RF Passband 21 C Limit & () DC to RF+DC Ports 21 C VSWR1 VSWR ORDERING INFORMATION: LBST95215A VSWR (Ratio :1) Unit: INCH Base Material: Aluminium Alloy 661 [mm] Finish: RoHS Compliant Conductive Plating Tolerance: X.XXX ±.5" X.XX ±.1" Rev 2.2 Copyright 214 LiConn, Inc.

18 FEATURED PRODUCT LDCB2A Product Description: LDCB2A (1. MHz 2. GHz DC Block) Key Performance Insertion Loss and 25 ºC VSWR LiConn has developed super wide band DC block with low cost. The block offers maximum insertion loss and maximum :1 VSWR throughout 1 MHz to 2 GHz band. The block can be used in varieties of circuitries such as wide band high power amplifiers, broadcast, and measurement. The block is designed to meet MIL-STD- 22g MHz ~ 2. GHz :1 Max. VSWR Max. Insertion Loss 16 Volts DC voltage Rating SMA Connector I/O Miniature Size RoHS Compliant Ordering Information Absolute Maximum Ratings Model Number Outline LDCB2A Parameters Units Ratings Maximum RF Power Dissipation W 1 Maximum DC Voltage Rating V 16 Storage Temperature C -65 ~ 15 Operating Temperature C -54 ~ +85 *Operation beyond any one of these parameters may cause permanent damage. Unit: INCH Base Material: Brass [mm] Finish: Gold Plating Tolerance: X.XXX ±.5" X.XX ±.1" Rev 1.2 Copyright 29 LiConn, Inc. For latest product information, please visit

19 FEATURED PRODUCT LDCB24A Product Description: LDCB24A (1. MHz 24. GHz DC Block) Key Performance SWR1 & SWR2 (Ratio) VSWR & Insertion 25 C SWR1 SWR LiConn has developed super wide band DC block with low cost. The block offers maximum insertion loss and maximum :1 VSWR throughout 1 MHz to 24 GHz band. The block can be used in varieties of circuitries such as wide band high power amplifiers, broadcast, and measurement. The block is designed to meet MIL-STD- 22g & () 1 MHz ~ 24. GHz :1 Max. VSWR Max. Insertion Loss 16 Volts DC voltage Rating SMA Connector I/O Miniature Size RoHS Compliant Ordering Information Absolute Maximum Ratings Model Number Outline LDCB24A Parameters Units Ratings Maximum RF Power Dissipation W 1 Maximum DC Voltage Rating V 16 Operating Temperature C -54 ~ +85 Storage Temperature C -65 ~ 15 *Operation beyond any one of these parameters may cause permanent damage. Unit: INCH Base Material: Brass [mm] Finish: Gold Plating Tolerance: X.XXX ±.5" X.XX ±.1" Rev 1.2 Copyright 213 LiConn, Inc. For latest product information, please visit

20 FEATURED PRODUCT LLDB4A S11 () Product Description: LLDB4A (1 MHz GHz Limiter) Key Performance Insertion Loss & Return 21 C S LiConn has developed super wide band Limiter with low cost. The limiter offers maximum.5 insertion loss and 1.25:1 maximum VSWR throughout 1 MHz to GHz band. The limiter can be used in varieties of Test equipment input protection, such as Network Analyzer, Noise Figure meter, Spectrum Analyzer, Amplifiers, and other Wireless Test Equipments. The limiter is designed to meet MIL-STD-22g () m Psat 21 C MHz ~ GHz 1.25:1 MAX VSWR.5 Max. Insertion Loss 5 Volts DC Voltage Rating SMA Connector I/O Miniature Size RoHS Compliance Ordering Information Model Number Input Output LLDB4A-1 SMA Male SMA Female LLDB4A-2 SMA Female SMA Male Outline Absolute Maximum Ratings Parameters Units Ratings RF Average Input Power W 2 Max. Saturated Output Power m 22 Maximum DC Voltage Rating V 5 Operating Temperature C -54 ~ +85 Storage Temperature C -65 ~ 15 *Operation beyond any one of these parameters may cause permanent damage. Unit: INCH Base Material: Brass [mm] Finish: Gold Plating Tolerance: X.XXX ±.5" X.XX ±.1" Copyright 29 LiConn, Inc. For latest product information, please visit

21 FEATURED PRODUCT LLDB9A Product Description: LLDB9A (3 MHz 9 MHz Limiter) Key Performance () VSWR1 & VSWR2 & Insertion 21 C Freq (MHz) MHz ~ 9 MHz 1.22:1 MAX VSWR.2 Max. Insertion Loss VSWR1 VSWR LiConn has developed super wide band Limiter with low cost. The limiter offers maximum.2 insertion loss and 1.22:1 maximum VSWR throughout 3 MHz to 9 MHz band. The limiter can be used in varieties of Test equipment input protection, such as Network Analyzer, Noise Figure meter, Spectrum Analyzer, Amplifiers, and other Wireless Test Equipments. The limiter is designed to meet MIL-STD-22g. VSWR(Ratio) m Volts DC Voltage Rating SMA Connector I/O Miniature Size P sat vs. P C Pout, 3 MHz Pout, 9MHz Pin (m) RoHS Compliant Ordering Information Model Number Input (SMA) Output(SMA) LLDB9A-1 Male Female LLDB9A-2 Female Male LLDB9A-3 Male Male LLDB9A-4 Female Female Outline Absolute Maximum Ratings Parameters Units Ratings RF Average Input Power W 2 Max. Saturated Output Power m 1 Maximum DC Voltage Rating V 5 Operating Temperature C -55 ~ +85 Storage Temperature C -65 ~ 15 *Operation beyond any one of these parameters may cause permanent damage. Unit: INCH Base Material: Brass [mm] Finish: Gold Plating Tolerance: X.XXX ±.5" X.XX ±.1" Copyright 29 LiConn, Inc. For latest product information, please visit

22 FEATURES: 9 12 MHz Rejection; - 4 Rejection;.45 Insertion Loss; DC 3MHz Passband; GHz Passband; 5W CW Power Rated; -4 ~ +85 C Operation; RoHS Compliant APPLICATIONS: Radar; Receivers; ECM System; WBA Systems; Point to Point; Test & Measurement; Wide Band PA Driver LBNF912A 9 ~ 12 MHz Notch Filter ELECTRICAL 25 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max F Notch Notch Band MHz 9 12 IL N Notch Band Rejection IL P Passband Insertion Loss.3 F LP Lower Passband MHz DC 3 F HP Upper Passband GHz P o CW Power handling W 5. VSWR 1 VSWR Input Ratio 1.25:1 2:1 VSWR 2 VSWR Output Ratio 1.25:1 2:1 Parameters/Conditions Unit Maximum Operating Temperature C -4/+85 Drain Current ma 3 DC Voltage V 25 RF Input Power W 6 Storage Temperature C +15 [1] Operation beyond these limits may cause permanent damage. ELECTRICAL PERFORMANCE VSWR & 25 C 6. Uper Band 25 C SWR1 SWR SWR1 SWR2 4. MECHANICAL OUTLINE ORDERING INFORMATION: LBNF912A Copyright 212 LiConn, Inc.

23 FEATURED PRODUCT LR1A Product Description: LR1A (DC 6 GHz 1 Watts High Precision Load) Key Performance Ratio C LiConn has developed high precision, high power, and miniature 5 Ohm load with low cost. The load offers maximum 1 Watts continuous RF power dissipation and 1.22:1 maximum VSWR throughout DC to 6 GHz band. The load can be used in varieties of circuitries such as wide band high power amplifiers, broadcast, and measurement. The load is designed to meet MIL-STD-22g. DC ~ 6 GHz 1.22:1 MAX VSWR 1 Watts Continuous RF Power SMA Connector I/O Miniature Size RoHS Compliant Usable up to 9 GHz Ordering Information Absolute Maximum Ratings Model Number LR1A LR1B Outline SMA Connector Female Male Parameters Units Ratings Maximum RF Power Dissipation W 1 Storage Temperature C -65 ~ 15 Operating Temperature C -54 ~ +85 *Operation beyond any one of these parameters may cause permanent damage. ADDITIONAL HEAT SINK REQUIRED AND AVAILABLE! Copyright 211 LiConn, Inc. For latest product information, please visit

24 FEATURED PRODUCT LR1C Product Description: LR1C (DC 15 GHz 1 Watts High Power Load) LiConn has developed high power and miniature 5 Ohm load with low cost. The load offers maximum 1 Watts continuous RF power dissipation and :1 maximum VSWR throughout DC to 15 GHz band. Key Performance Ratio º C The load can be used in varieties of circuitries such as wide band high power amplifiers, broadcast, and measurement. The load is designed to meet MIL-STD-22g. DC ~ 15 GHz :1 MAX VSWR 1 Watts Continuous RF Power SMA Connector I/O Miniature Size RoHS Compliant Ordering Information Absolute Maximum Ratings Model Number LR1C LR1D Outline SMA Connector Female Male Parameters Units Ratings Maximum RF Power Dissipation W 1 Storage Temperature C -65 ~ 15 Operating Temperature C -54 ~ +85 *Operation beyond any one of these parameters may cause permanent damage. ADDITIONAL HEAT SINK REQUIRED AND AVAILABLE! Copyright 211 LiConn, Inc. For latest product information, please visit

25 FEATURED PRODUCT LR2A Product Description: LR2A (DC 6 GHz 2 Watts High Precision Load) Key Performance Ratio C LiConn has developed high precision, high power, and miniature 5 Ohm load with low cost. The load offers maximum 2 Watts continuous RF power dissipation and 1.22:1 maximum VSWR throughout DC to 6 GHz band. The load can be used in varieties of circuitries such as wide band high power amplifiers, broadcast, and measurement. The load is designed to meet MIL-STD-22g. DC ~ 6 GHz 1.22:1 MAX VSWR 2 Watts Continuous RF Power SMA Connector I/O Miniature Size RoHS Compliant Usable up to 9 GHz Ordering Information Absolute Maximum Ratings Model Number LR2A LR2B Outline SMA Connector Female Male Parameters Units Ratings Maximum RF Power Dissipation W 2 Storage Temperature C -65 ~ 15 Operating Temperature C -54 ~ +85 *Operation beyond any one of these parameters may cause permanent damage. ADDITIONAL HEAT SINK REQUIRED AND AVAILABLE! Copyright 214 LiConn, Inc. For latest product information, please visit

26 FEATURED PRODUCT LR2C Product Description: LR2C (DC 15 GHz 2 Watts High Power Load) LiConn has developed high power and miniature 5 Ohm load with low cost. The load offers maximum 2 Watts continuous RF power dissipation and :1 maximum VSWR throughout DC to 15 GHz band. Key Performance Ratio º C The load can be used in varieties of circuitries such as wide band high power amplifiers, broadcast, and measurement. The load is designed to meet MIL-STD-22g. DC ~ 15 GHz :1 MAX VSWR 1 Watts Continuous RF Power SMA Connector I/O Miniature Size RoHS Compliant Ordering Information Absolute Maximum Ratings Model Number LR2C LR2D Outline SMA Connector Female Male Parameters Units Ratings Maximum RF Power Dissipation W 2 Storage Temperature C -65 ~ 15 Operating Temperature C -54 ~ +85 *Operation beyond any one of these parameters may cause permanent damage. ADDITIONAL HEAT SINK REQUIRED AND AVAILABLE! Copyright 214 LiConn, Inc. For latest product information, please visit

27 FEATURED PRODUCT LR1A Product Description: LR1A (DC 12 GHz 1 Watts High Power Load) Key Performance Ratio C LiConn has developed high power and miniature 5 Ohm load with low cost. The load offers maximum 1 Watts continuous RF power dissipation and 1.25:1 maximum VSWR throughout DC to 12 GHz band. The load can be used in varieties of circuitries such as wide band high power amplifiers, broadcast, and measurement. The load is designed to meet MIL-STD-22g. DC ~ 12. GHz 1.25:1 MAX VSWR 1 Watts Continuous RF Power SMA Connector I/O Miniature Size RoHS Compliant Ordering Information Absolute Maximum Ratings Model Number LR5A LR5B Outline SMA Connector Female Male Parameters Units Ratings Maximum RF Power Dissipation W 1 Storage Temperature C -65 ~ 15 Operating Temperature C -54 ~ +85 *Operation beyond any one of these parameters may cause permanent damage. ADDITIONAL HEAT SINK REQUIRED AND AVAILABLE! Copyright 29 LiConn, Inc. For latest product information, please visit

28 APPLICATION NOTE HIGH POWER LOAD 1. Heat Sink Requirement Application Note For High Power Loads: LR1A LR1B LR1C LR1D Additional heat sink is required for LR1A, LR1B, LR1C, LR1D (1 Watt load). The maximum temperature of 175 C is allowed for the internal high power load resistor. The following equation is used to calculate the thermal dissipation of the heat sink 175 C = T amb ( C ) + P (W) R th ( C/W) For 85 C ambient temperature and 1 W power dissipation, the maximum thermal resistance of the required heat sink will be R th ( C/W) = (175 85)/1 =.9 ( C/W) In order to have such low thermal resistance, the thermal compound is necessary between the bottom of the load and the heat sink. The forced air may be used to further decrease the thermal resistance, especially there is a limited room for the placement of the heat sink. 2. Load Installation Materials Needed: 4 pieces #2-56 ¾ mounting screws; 4 pieces washers for the mounting screws; Thermal Compound Tap 4 mounting holes with the depth of.25 on the heat sink. Make sure the location is correct so that the SMA connector of the load can be accessed easily. Apply the thermal compound on the bottom of the heat sink. Use the correct torque to mount the load on the heat sink. For forced air thermal dissipation enhancement, the fan can be mounted on the opposite side of the heat sink so that the forced air can directly blow on bottom of side of the heat sink. 3. Existing Heat Sink for Power Amplifier For existing heat sink such as power amplifier applications, the additional heat sink may not required if the load is used for the combiner load. The load can be directly mounted on the heat sink assuming the heat sink is sufficient for the total DC power dissipation of the PA. 4. Connecting to the External Components No more than 8 inch-lb torque wrench shall be used to connect external cable to the SMA connector on the Load. Torque wrench with 5 ~ 6 inch-lb coupling torque setting is highly recommended, like Agilent (5 inch-lb). Copyright 211 LiConn, Inc. For latest product information, please visit

29 FEATURES: 2 MHz ~ GHz; 15 Gain; 1.2 Noise Figure; 12. m P 1 ; 26. m IP 3 ; RoHS Compliant. APPLICATIONS: Radar; Receiver; ECM System; WBA System; Point to Point; Test & Measurement; Wide Band PA Driver. LNA235A, 2 MHz ~ GHz WIDE BAND LOW NOISE AMPLIFIER ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max G Gain ΔG Gain Flatness ± VSWR 1 VSWR Input Ratio 1.35:1 1.8:1 VSWR 2 VSWR Output Ratio 1.35:1 :1 S 12 Reverse Isolation 2 NF Noise Figure OIP 3 Output 3 rd Order Intercept m 26 P 1 Output 1 Gain Compression m 12 I dd Device Current (V dd =+12V) ma 25 V dd DC Power Supply Voltage V Z Impedance Ohm 5 Parameters/Conditions Unit Maximum Channel Temperature C +15 CW RF Input Power m +13 DC Supply Voltage V 3 Drain Current ma 15 Thermal Resistance C/W 22 Total Power Dissipation mw 6 Operating Temperature C -4 ~ +85 Storage Temperature C -65 ~ +125 [1] Operation beyond these limits may cause permanent damage. &, 21 C ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE Ratio (:1) VSWR1 & VSWR2, 21 C VSWR1 5. VSWR & () Lower Band Performance, 21 C VSWR1 VSWR VSWR1 & VSWR2 (:1) P1 & IP3 (m) P1 & IP3 & NF, 21 C P1 IP3 NF NF() ORDERING INFORMATION: LNA235A Unit: INCH Base Material: Aluminium Alloy 661 [mm] Finish: RoHS Compliant Conductive Plating Tolerance: X.XXX ±.5" X.XX ±.1" Rev 1.2 Copyright 21 LiConn, Inc.

30 FEATURES:.1 6. GHz; 14. Gain; 1.1 Noise Figure; 15. P1; 27. m IP3; RoHS Compliant APPLICATIONS: Celullar; GPS; PCS; 3G; WiMAX; C-Band; Test & Measurement LNA16A.1 ~ 6. GHz WIDE BAND AMPLIFIER ELECTRICAL 25 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max F Operating Frequency GHz.1 6 G Gain 14 I d Device Current ma 3 Z Impedance Ohm 5 OIP3 Output 3 rd Order Intercept m 27 NF Noise Figure 1.1 P 1 Output 1 Gain Compression m 15 S 12 Reverse Isolation 2 V dd DC Power Supply Voltage V VSWR 1 VSWR Input Ratio 1.25:1 VSWR 2 VSWR Output Ratio :1 Gain() and Reverse Isolation 25 C NF 25 C Ratio Parameters/Conditions Unit Maximum Channel Temperature C +15 Drain Current ma 7 Operating Temperature C -54 ~ +85 RF Input Power m +1 RF Output Supply Voltage V 8 Storage Temperature C -65 ~ +15 Thermal Resistance C/W 23 [1] Operation beyond these limits may cause permanent damage. ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE VSWR1 and 25 C VSWR1 VSWR ORDERING INFORMATION NF Model Number Input Output LNA16A-1 SMA Female SMA Female LNA16A-2 SMA Female SMA Male LNA16A-3 SMA Male SMA Male LNA16A-4 SMA Male SMA Female LNA16AG-1 SMA Female SMA Female LNA16AG-2 SMA Female SMA Male LNA16AG-3 SMA Male SMA Male LNA16AG-4 SMA Male SMA Female Rev 1.1 Copyright 212 LiConn, Inc.

31 Mechanical Outline LNA16A-: Unit: Inch/mm Material: Brass Finish: Gold Plating Tolerance is Non-Accumulative LNA16AG- (with Ground Turret on Output SMA): Rev 1.1 Copyright 212 LiConn, Inc.

32 FEATURES:.2 GHz ~ 4. GHz; 29 Gain; 1.3 Noise Figure; 13. m P 1 ; 26. m IP 3 ; Unconditional Stable; RoHS Compliant. APPLICATIONS: Radar; Receiver; ECM System; WBA System; Point to Point; Test & Measurement; Wide Band PA Driver. LNA24A,.2 GHz ~ 4. GHz WIDE BAND LOW NOISE AMPLIFIER ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max G Gain ΔG Gain Flatness ±.5 ± VSWR 1 VSWR Input Ratio 1.6:1 2:1 VSWR 2 VSWR Output Ratio 1.6:1 2:1 S 12 Reverse Isolation 42 NF Noise Figure OIP 3 Output 3 rd Order Intercept m P 1 Output 1 Gain Compression m I dd Device Current (V dd =+5V) ma 5 V dd DC Power Supply Voltage V Z Impedance Ohm 5 Parameters/Conditions Unit Maximum Channel Temperature C +15 CW RF Input Power m +1 DC Supply Voltage V +6. Drain Current ma 7 Thermal Resistance C/W 22 Total Power Dissipation mw 4 Operating Temperature C -4 ~ +85 Storage Temperature C -55 ~ +125 [1] Operation beyond these limits may cause permanent damage Gain & Reverse 21 C Input & Output 21 C Noise 21 C ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE Ratio (:1) VSWR1 VSWR P1 & 21 C 25 P1 m 2 IP ORDERING INFORMATION: LNA24A Unit: INCH Base Material: Aluminium Alloy 661 [mm] Finish: RoHS Compliant Conductive Plating Tolerance: X.XXX ±.5" X.XX ±.1" Rev 1.2 Copyright 214 LiConn, Inc.

33 FEATURES:.5 GHz ~ 4. GHz; 26 Gain; 1.2 Noise Figure; 14. m P 1 ; 27. m IP 3 ; Unconditional Stable; RoHS Compliant. APPLICATIONS: Radar; Receiver; ECM System; WBA System; Point to Point; Test & Measurement; Wide Band PA Driver. LNA54A,.5 GHz ~ 4. GHz WIDE BAND LOW NOISE AMPLIFIER ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max G Gain ΔG Gain Flatness ± ±1.3 VSWR 1 VSWR Input Ratio 1.8:1 2:1 VSWR 2 VSWR Output Ratio :1 1.8:1 S 12 Reverse Isolation 45 5 NF Noise Figure OIP 3 Output 3 rd Order Intercept m P 1 Output 1 Gain Compression m I dd Device Current (V dd =+5V) ma 65 V dd DC Power Supply Voltage V Z Impedance Ohm 5 Parameters/Conditions Unit Maximum Channel Temperature C +15 CW RF Input Power m +1 DC Supply Voltage V +7. Drain Current ma 8 Thermal Resistance C/W 215 Total Power Dissipation mw 4 Operating Temperature C -4 ~ +85 Storage Temperature C -55 ~ +125 [1] Operation beyond these limits may cause permanent damage. 5 4 ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE Gain & Reverse 21 C Input & Output 21 C Noise C Ratio (:1) VSWR2 VSWR IP3 and 21 C IP3 P1 25 m ORDERING INFORMATION: LNA54A Unit: INCH Base Material: Aluminium Alloy 661 [mm] Finish: RoHS Compliant Conductive Plating Tolerance: X.XXX ±.5" X.XX ±.1" Rev 1.2 Copyright 214 LiConn, Inc.

34 FEATURES:.6 GHz ~ GHz; 3 Gain; Noise Figure; 14. m P 1 ; 26. m IP 3 ; Unconditional Stable; RoHS Compliant. APPLICATIONS: GPS; Satellite; WiMAX; Defense; Security System; Test & Measurement; Fixed Wireless. LNA625A,.6 GHz ~ GHz WIDE BAND LOW NOISE AMPLIFIER ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max G Gain ΔG Gain Flatness ± VSWR 1 VSWR Input Ratio 1.4:1 :1 VSWR 2 VSWR Output Ratio 1.4:1 :1 S 12 Reverse Isolation NF Noise Figure 1.2 OIP 3 Output 3 rd Order Intercept m P 1 Output 1 Gain Compression m 1 14 I dd Device Current (V dd =+5V) ma 5 6 V dd DC Power Supply Voltage V Z Impedance Ohm 5 Parameters/Conditions Unit Maximum Channel Temperature C +15 CW RF Input Power m +5. DC Supply Voltage V +7. Drain Current ma 8 Thermal Resistance C/W 215 Total Power Dissipation mw 4 Operating Temperature C -4 ~ +85 Storage Temperature C -55 ~ +125 [1] Operation beyond these limits may cause permanent damage. Small Signal 21 C S11 S ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE m IP3 and 21 C 4 IP3 35 P Noise 21 C Ratio Stability Factor 21 C ORDERING INFORMATION: LNA625A Unit: INCH Base Material: Aluminium Alloy 661 [mm] Finish: RoHS Compliant Conductive Plating Tolerance: X.XXX ±.5" X.XX ±.1" Rev 1.2 Copyright 214 LiConn, Inc.

35 FEATURES: 8 MHz ~ 1.4 GHz; 35 Gain;.6 Noise Figure; 2. m P 1 ; 3. m IP 3 ; Unconditional Stable; RoHS Compliant. APPLICATIONS: GPS; Satellite; WiMax; Defense; Mobile Infrastructure; Measurement; Fixed Wireless. LNA814A, 8 MHz ~ 1.4 GHz WIDE BAND LOW NOISE AMPLIFIER ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max G Gain ΔG Gain Flatness ± VSWR 1 VSWR Input Ratio 1.35:1 1.8:1 VSWR 2 VSWR Output Ratio 1.35:1 1.8:1 S 12 Reverse Isolation 4 45 NF Noise Figure.6.8 OIP 3 Output 3 rd Order Intercept m 28 3 P 1 Output 1 Gain Compression m 19 2 I dd Device Current (V dd =+5V) ma 85 V dd DC Power Supply Voltage V Z Impedance Ohm 5 Parameters/Conditions Unit Maximum Channel Temperature C 15 CW RF Input Power m +1 DC Supply Voltage V +7. Drain Current ma 1 Thermal Resistance C/W 215 Total Power Dissipation mw 5 Operating Temperature C -4 ~ +85 Storage Temperature C -65 ~ +125 [1] Operation beyond these limits may cause permanent damage. ELECTRICAL PERFORMANCE/ MECHANICAL OUTLINE 5 Pass Band 21 C P1 & 21 C Noise 21 C & () VSWR1 VSWR VSWR1 & VSWR2 (:1) m 3 P1 IP NF Stability Factor 21 C k ORDERING INFORMATION: LNA814A Unit: INCH Base Material: Aluminium Alloy 661 [mm] Finish: RoHS Compliant Conductive Plating Tolerance: X.XXX ±.5" X.XX ±.1" Rev 1.4 Copyright 21 LiConn, Inc.

36 FEATURES: 8 MHz ~ 1.4 GHz; 35 Gain;.6 Noise Figure; 2. m P 1 ; 3. m IP 3 ; Unconditional Stable; RoHS Compliant. APPLICATIONS: GPS; Satellite; WiMax; Defense; Mobile Infrastructure; Measurement; Fixed Wireless. LNA814B, 8 MHz ~ 1.4 GHz WIDE BAND LOW NOISE AMPLIFIER ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max G Gain ΔG Gain Flatness ± VSWR 1 VSWR Input Ratio 1.35:1 1.8:1 VSWR 2 VSWR Output Ratio 1.35:1 1.8:1 S 12 Reverse Isolation 4 45 NF Noise Figure.6.8 OIP 3 Output 3 rd Order Intercept m 28 3 P 1 Output 1 Gain Compression m 19 2 I dd Device Current (V dd =+12V) ma 85 V dd DC Power Supply Voltage V Z Impedance Ohm 5 Parameters/Conditions Unit Maximum Channel Temperature C 15 CW RF Input Power m +1 DC Supply Voltage V +16. Drain Current ma 1 Thermal Resistance C/W 215 Total Power Dissipation mw 5 Operating Temperature C -4 ~ +85 Storage Temperature C -55 ~ +125 [1] Operation beyond these limits may cause permanent damage. ELECTRICAL PERFORMANCE/ MECHANICAL OUTLINE 5 Pass Band 21 C P1 & 21 C Noise 21 C & () VSWR1 VSWR VSWR1 & VSWR2 (:1) m 3 P1 IP NF Stability Factor 21 C k ORDERING INFORMATION: LNA814B Unit: INCH Base Material: Aluminium Alloy 661 [mm] Finish: RoHS Compliant Conductive Plating Tolerance: X.XXX ±.5" X.XX ±.1" Rev 1.3 Copyright 21 LiConn, Inc.

37 FEATURES: 9 MHz ~ 13 MHz; 18. Gain;.6 Noise Figure; 15. m P 1 ; 3. m IP 3 ; RoHS Compliant. APPLICATIONS: GPS; Avionics; Defense; Security System; Test & Measurement; Fixed Wireless. LNA913B, 9 MHz ~ 13 MHz WIDE BAND LOW NOISE AMPLIFIER ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max G Gain ΔG Gain Flatness ±.5 ± VSWR 1 Input VSWR Ratio :1 1.6:1 VSWR 2 Output VSWR Ratio :1 1.6:1 S 12 Reverse Isolation 2 22 NF Noise Figure.6.7 OIP 3 Output 3 rd Order Intercept m 26 3 P 1 Output 1 Gain Compression m I dd Device Current (V dd =+5V) ma 4 5 V dd DC Power Supply Voltage V Z Impedance Ohm 5 Parameters/Conditions Unit Maximum Channel Temperature C 15 CW RF Input Power m 1 DC Supply Voltage V 7. Drain Current ma 8 Thermal Resistance C/W 215 Total Power Dissipation mw 4 Operating Temperature C -4 ~ +85 Storage Temperature C -55~+125 [1] Operation beyond these limits may cause permanent damage. Small Signal Passband 21 C S11 S22 ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE Small Signal Extended Band 21 C Noise 21 C S11 S P1 & 21 C P1 IP ORDERING INFORMATION: LNA913B Unit: INCH Base Material: Aluminium Alloy 661 [mm] Finish: RoHS Compliant Conductive Plating Tolerance: X.XXX ±.5" X.XX ±.1" Rev 1.2 Copyright 214 LiConn, Inc.

38 FEATURES: 1.2 GHz ~ 1.6 GHz; 33 Gain;.5 Noise Figure; 7. m P 1 ; 17. m IP 3 ; RoHS Compliant. APPLICATIONS: GPS; Satellite Communication; Test & Measurement; Mobile Communication. LNA1216A, 1.2 GHz ~ 1.6 GHz WIDE BAND LOW NOISE AMPLIFIER ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max G Gain 33 ΔG Gain Flatness ±.7 S 11 Input Return Loss S 22 Output Return Loss S 12 Reverse Isolation 3 NF Noise Figure.5.65 OIP 3 Output 3 rd Order Intercept m 17 P 1 Output 1 Gain Compression m 7 I dd Device Current (V dd =+12V) ma 25 V dd DC Power Supply Voltage V Z Impedance Ohm 5 Parameters/Conditions Unit Maximum Channel Temperature C 15 CW RF Input Power m +1 DC Supply Voltage V 3 Drain Current ma 15 Thermal Resistance C/W 22 Total Power Dissipation mw 6 Operating Temperature C -4 ~ +85 Storage Temperature C -55 ~ +125 [1] Operation beyond these limits may cause permanent damage &, 21 C ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE S11 & S22, 21 C Noise Figure, 21 C S11 S P1 & IP3, 21 C 25 P1 2 IP3 m ORDERING INFORMATION: LNA1216A Unit: INCH Base Material: Aluminium Alloy 661 [mm] Finish: RoHS Compliant Conductive Plating Tolerance: X.XXX ±.5" X.XX ±.1" Rev 1.3 Copyright 21 LiConn, Inc.

39 FEATURES: GHz; 24. Gain; 3. Noise Figure; 17.5 m P 1 ; 29. m IP 3 ; Unconditional Stable; RoHS Compliant APPLICATIONS: Radar; Receivers; ECM System; WBA Systems; Point to Point; Test & Measurement; Wide Band PA Driver LNA129A 1.2 ~ 9. GHz WIDE BAND AMPLIFIER ELECTRICAL 25 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max I d Device Current ma 11 G Gain ΔG Gain Flatness ±3. Z Impedance Ohm 5 OIP3 Output 3 rd Order Intercept m 29 NF Noise Figure P 1 Output 1 Gain Compression m 17.5 S 12 Reverse Isolation 38 V dd DC Power Supply Voltage V VSWR 1 VSWR Input Ratio 1.43:1 1.8:1 VSWR 2 VSWR Output Ratio 1.7:1 1.85:1 Parameters/Conditions Unit Maximum Channel Temperature C +15 Drain Current ma 15 Operating Temperature C -54 ~ +85 RF Input Power m +2 RF Output Supply Voltage V 8 Storage Temperature C -65 ~ +15 Thermal Resistance C/W 14 Total Power Dissipation mw 75 [1] Operation beyond these limits may cause permanent damage. ELECTRICAL PERFORMANCE 5 Gain & Reverse 25 C 6. Input & Output 25 C 5. Noise 25 C VSWR1 VSWR2 4. Noise Figure Ratio m IP 3 & P 25 C P1 1. IP ORDERING INFORMATION Model Number Input Output LNA129A-1 SMA Female SMA Female LNA129A-2 SMA Female SMA Male LNA129A-3 SMA Male SMA Male LNA129A-4 SMA Male SMA Female LNA129AG-1 SMA Female SMA Female LNA129AG-2 SMA Female SMA Male LNA129AG-3 SMA Male SMA Male LNA129AG-4 SMA Male SMA Female Rev 1.1 Copyright 212 LiConn, Inc.

40 Mechanical Outline LNA129A-: Unit: Inch/mm Material: Brass Finish: Gold Plating Tolerance is Non-Accumulative LNA129AG- (with Ground Turret on Output SMA): Rev 1.1 Copyright 212 LiConn, Inc.

41 FEATURES: 2. GHz ~ 2.6 GHz; 26 Gain;.7 Noise Figure; 12. m P 1 ; Unconditional Stable; Precision machined housing; RoHS Compliant. APPLICATIONS: Receiver; Wireless Data Communication; Measurement. LNA226A, 2. GHz ~ 2.6 GHz WIDE BAND LOW NOISE AMPLIFIER ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max G Gain ΔG Gain Flatness ±.75 ± VSWR 1 Input VSWR Ratio 1.4:1 :1 VSWR 2 Output VSWR Ratio 1.4:1 :1 S 12 Reverse Isolation NF Noise Figure.7.8 P 1 Output 1 Gain Compression m 11 1 I dd Device Current (V dd =+5V) ma V dd DC Power Supply Voltage V Z Impedance Ohm 5 Parameters/Conditions Unit Maximum Channel Temperature C +15 CW RF Input Power m +1 DC Supply Voltage V +7. Drain Current ma 8 Thermal Resistance C/W 22 Total Power Dissipation mw 5 Operating Temperature C -4 ~ +85 Storage Temperature C -55 ~ +125 [1] Operation beyond these limits may cause permanent damage ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE Passband 21 C 5 Wideband 21 C S S S S Noise 21 C m 21 C Unit: INCH Base Material: Aluminium Alloy 661 [mm] Finish: RoHS Compliant Conductive Plating Tolerance: X.XXX ±.5" X.XX ±.1" ORDERING INFORMATION: LNA226A Rev 1.2 Copyright 214 LiConn, Inc.

42 FEATURES: 2. GHz ~ 6. GHz; 25 Gain; Noise Figure; 12. m P 1 ; 22. m IP 3 ; Unconditional Stable; Precision machined housing; RoHS Compliant. APPLICATIONS: WiMAX; Security System; Defense; Measurement; Fixed Wireless; Mobile Infrastructure. LNA26B, 2. GHz ~ 6. GHz WIDE BAND LOW NOISE AMPLIFIER ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS Symbol Parameters/Conditions Unit Min Typical Max G Gain ΔG Gain Flatness ± ± VSWR 1 Input VSWR Ratio 1.8:1 2:1 VSWR 2 Output VSWR Ratio :1 2:1 S 12 Reverse Isolation 4 NF Noise Figure 1.2 OIP 3 Output 3 rd Order Intercept m 22 P 1 Output 1 Gain Compression m 1 12 I dd Device Current (V dd =+5/12v) ma 4 V dd LNA26B V LNA26B Z Impedance Ohm 5 21 C Ratio (:1) VSWR1 & 21 C VSWR1 VSWR2 Parameters/Conditions Unit Maximum Channel Temperature C +15 CW RF Input Power m +1 DC Supply Voltage V Drain Current ma 7 Thermal Resistance C/W 22 Total Power Dissipation mw 4 Operating Temperature C -4 ~ +85 Storage Temperature C -55 ~ +125 [1] Operation beyond these limits may cause permanent damage. ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE Noise 21 C IP3 and 21 C m IP3 P ORDERING INFORMATION: Part Number V dd (V) LNA26B +5. LNA26B Unit: INCH Base Material: Aluminium Alloy 661 [mm] Finish: RoHS Compliant Conductive Plating Tolerance: X.XXX ±.5" X.XX ±.1" Rev 1.3 Copyright 214 LiConn, Inc.

43 FEATURES: 5. GHz ~ 7. GHz; 22 Gain;.9 Noise Figure; 1. m P 1 ; 2 m IP 3 ; RoHS Compliant. APPLICATIONS: ISM; Satellite Communication; Test & Measurement; Mobile Communication. LNA57A, 5. GHz ~ 7. GHz WIDE BAND LOW NOISE AMPLIFIER ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max G Gain 22 ΔG Gain Flatness ± VSWR 1 Input VSWR Ratio :1 1.8:1 VSWR 2 Output VSWR Ratio 1.3:1 :1 S 12 Reverse Isolation 3 NF Noise Figure OIP 3 Output 3 rd Order Intercept m 21 P 1 Output 1 Gain Compression m 1 I dd Device Current (V dd =+12V) ma 4 V dd DC Power Supply Voltage V Z Impedance Ohm 5 Parameters/Conditions Unit Maximum Channel Temperature C +15 CW RF Input Power m +1 DC Supply Voltage V 3 Drain Current ma 15 Thermal Resistance C/W 22 Total Power Dissipation mw 6 Operating Temperature C -4 ~ +85 Storage Temperature C -55 ~ +125 [1] Operation beyond these limits may cause permanent damage C ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE VSWR1 & 21 C 2. Noise 21 C Ratio (:1) VSWR1 VSWR P1 & 21 C 25 2 m 15 P1 IP ORDERING INFORMATION: LNA57A Unit: INCH Base Material: Aluminium Alloy 661 [mm] Finish: RoHS Compliant Conductive Plating Tolerance: X.XXX ±.5" X.XX ±.1" Rev 1.2 Copyright 21 LiConn, Inc.

44 FEATURES: 12. GHz; 13. Gain; 3.1 Noise Figure; 17. m P 1 ; 27. m IP 3 ; Unconditional Stable; RoHS Compliant APPLICATIONS: Radar; Receivers; ECM System; WBA Systems; Point to Point; Test & Measurement; Wide Band PA Driver LNA112A ~ 12. GHz WIDE BAND AMPLIFIER ELECTRICAL 25 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max I d Device Current ma G Gain ΔG Gain Flatness ±2. Z Impedance Ohm 5 OIP3 Output 3 rd Order Intercept m 27 NF Noise Figure P 1 Output 1 Gain Compression m 17 S 12 Reverse Isolation 2 V dd DC Power Supply Voltage V VSWR 1 VSWR Input Ratio VSWR 2 VSWR Output Ratio Parameters/Conditions Unit Maximum Channel Temperature C +15 Drain Current ma 1 Operating Temperature C -54 ~ +85 RF Input Power m +2 RF Output Supply Voltage V 8 Storage Temperature C -65 ~ +15 Thermal Resistance C/W 14 Total Power Dissipation mw 35 [1] Operation beyond these limits may cause permanent damage Gain & Reverse 25 C ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE Ratio Input & Output 25 C VSWR1 VSWR2 Noise 25 C NF m IP 3 & P 25 C P1 IP ORDERING INFORMATION Model Number Input Output LNA112A-1 SMA Female SMA Female LNA112A-2 SMA Female SMA Male LNA112A-3 SMA Male SMA Male LNA112A-4 SMA Male SMA Female LNA112AG-1 SMA Female SMA Female LNA112AG-2 SMA Female SMA Male LNA112AG-3 SMA Male SMA Male LNA112AG-4 SMA Male SMA Female Rev 1.1 Copyright 212 LiConn, Inc.

45 Mechanical Outline LNA112A-: Unit: Inch/mm Material: Brass Finish: Gold Plating Tolerance is Non-Accumulative LNA112AG- (with Ground Turret on Output SMA): Rev 1.1 Copyright 212 LiConn, Inc.

46 FEATURES: 8 GHz ~ 18 GHz; 2 Gain; 2.2 Noise Figure; 1. m P 1 ; ± Gain Flatness; RoHS Compliant. APPLICATIONS: Wideband; Data Communication; Measurement. LNA818A, 8 GHz ~ 18 GHz LOW NOISE AMPLIFIER ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max G Gain 21 ΔG Gain Flatness ± ± VSWR 1 Input VSWR Ratio 1.8:1 2.4:1 VSWR 2 Output VSWR Ratio :1 2.:1 S 12 Reverse Isolation 35 NF Noise Figure 2.2 P 1 Output 1 Gain Compression m 1 I dd Device Current (V dd =+12V) ma 6 V dd Positive Power Supply Voltage V Z Impedance Ohm 5 Parameters/Conditions Unit Maximum Channel Temperature C +15 CW RF Input Power m 15 DC Supply Voltage V 16 Drain Current ma 8 Thermal Resistance C/W 5 Total Power Dissipation W 1.2 Operating Temperature C -4 ~ +85 Storage Temperature C -55 ~ +125 [1] Operation beyond these limits may cause permanent damage C ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE Ratio (:1) VSWR1 & 21 C VSWR1 VSWR Noise 21 C m 21 C P ORDERING INFORMATION: LNA818A Unit: INCH Base Material: Aluminium Alloy 661 [mm] Finish: RoHS Compliant Conductive Plating Tolerance: X.XXX ±.5" X.XX ±.1" Rev 1.1 Copyright 211 LiConn, Inc.

47 FEATURES: 1 MHz ~ 15 MHz; 17. Gain; 3. Noise Figure; 3. m P 1 ; 45. m IP 3 ; RoHS Compliant. APPLICATIONS: SW; FM; VHF. LPA115A, 1 MHz ~ 15 MHz WIDE BAND POWER AMPLIFIER ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max G Gain ΔG Gain Flatness ±.2 VSWR 1 Input VSWR Ratio 2.:1 VSWR 2 Output VSWR Ratio :1 2.:1 S 12 Reverse Isolation 28 NF Noise Figure 3. OIP 3 Output 3 rd Order Intercept m P 1 Output 1 Gain Compression m I dd Device Current (V dd =+12V) ma 2 V dd Positive Power Supply Voltage V Z Impedance Ohm 5 Parameters/Conditions Unit Maximum Channel Temperature C +15 CW RF Input Power m 2 DC Supply Voltage V 16 Drain Current ma 25 Thermal Resistance C/W 32 Total Power Dissipation W 3. Operating Temperature C -4 ~ +85 Storage Temperature C -55 ~ +125 [1] Operation beyond these limits may cause permanent damage. & () Frequency 21 C IP3 & 21 C VSWR1 1-1 VSWR Freq (MHz) 1 Noise Figure in Linear 21 C NF ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE Freq (MHz) VSWR1 & VSWR2 (Ratio :1) m IP3 P1 15. Freq (MHz) , ORDERING INFORMATION: LPA115A Rev 1.1 Copyright 211 LiConn, Inc.

48 FEATURES:.1 MHz ~ 15 MHz; 17. Gain; 3. Noise Figure; 3. m P 1 ; 45. m IP 3 ; RoHS Compliant. APPLICATIONS: SW; FM; VHF. LPA115B,.1 MHz ~ 15 MHz WIDE BAND POWER AMPLIFIER ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max G Gain ΔG Gain Flatness ±.2 VSWR 1 Input VSWR Ratio 2.:1 VSWR 2 Output VSWR Ratio :1 2.:1 S 12 Reverse Isolation 28 NF Noise Figure 3. OIP 3 Output 3 rd Order Intercept m P 1 Output 1 Gain Compression m I dd Device Current (V dd =+12V) ma 2 V dd Positive Power Supply Voltage V Z Impedance Ohm 5 Parameters/Conditions Unit Maximum Channel Temperature C +15 CW RF Input Power m 2 DC Supply Voltage V 16 Drain Current ma 25 Thermal Resistance C/W 32 Total Power Dissipation W 3. Operating Temperature C -4 ~ +85 Storage Temperature C -55 ~ +125 [1] Operation beyond these limits may cause permanent damage. ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE 25 Frequency 21 C IP3 & 21 C & () VSWR1 VSWR Freq (MHz) VSWR1 & VSWR2 (Ratio :1) m IP3 P Freq (MHz) ,. 1. Noise Figure In Linear 21 C NF Freq (MHz) ORDERING INFORMATION: LPA115B Rev 1.2 Copyright 212 LiConn, Inc.

49 FEATURES: 1 MHz ~ 6 MHz; 16. Gain; 3. Noise Figure; 3. m P 1 ; 45. m IP 3 ; RoHS Compliant. APPLICATIONS: Base Station; Data Communication; Tower Top; Last-Mile Wireless Communication; Measurement. LPA16A, 1 MHz ~ 6 MHz WIDE BAND POWER AMPLIFIER ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max G Gain ΔG Gain Flatness ±.5 VSWR 1 Input VSWR Ratio 2.:1 VSWR 2 Output VSWR Ratio 2.:1 S 12 Reverse Isolation 27 NF Noise Figure 3. OIP 3 Output 3 rd Order Intercept m P 1 Output 1 Gain Compression m 28 3 I dd Device Current (V dd =+12V) ma 2 V dd Positive Power Supply Voltage V Z Impedance Ohm 5 Parameters/Conditions Unit Maximum Channel Temperature C +15 CW RF Input Power m 2 DC Supply Voltage V 16 Drain Current ma 25 Thermal Resistance C/W 32 Total Power Dissipation W 3. Operating Temperature C -4 ~ +85 Storage Temperature C -55 ~ +125 [1] Operation beyond these limits may cause permanent damage. S11 & () ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE Frequency 21 C VSWR1 VSWR VSWR1 & VSWR2 (Ratio) Freq (MHz) Freq (MHz) Noise Figure in Linear 21 C Noise Figure in Log 21 C NF 8. NF Freq (MHz) , 5. IP3 & 21 C m IP3 P1 15. Freq (MHz) , ORDERING INFORMATION: LPA16A Unit: INCH Base Material: Aluminium Alloy 661 [mm] Finish: RoHS Compliant Conductive Plating Tolerance: X.XXX ±.5" X.XX ±.1" Rev 1.1 Copyright 211 LiConn, Inc.

50 FEATURES: 1 MHz ~ 15 MHz; 14. Gain; 5. Noise Figure; 29. m P 1 ; 44. m IP 3 ; RoHS Compliant. APPLICATIONS: Base Station; Data Communication; Tower Top; GPS; Measurement. LPA115A, 1 MHz ~ 15 MHz WIDE BAND POWER AMPLIFIER ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max G Gain ΔG Gain Flatness ±.5 VSWR 1 Input VSWR Ratio 2.2:1 VSWR 2 Output VSWR Ratio 2.2:1 S 12 Reverse Isolation NF Noise Figure 5 1 OIP 3 Output 3 rd Order Intercept m P 1 Output 1 Gain Compression m I dd Device Current (V dd =+12V) ma 2 V dd Positive Power Supply Voltage V Z Impedance Ohm 5 Parameters/Conditions Unit Maximum Channel Temperature C +15 CW RF Input Power m 2 DC Supply Voltage V 16 Drain Current ma 25 Thermal Resistance C/W 4 Total Power Dissipation W 3. Operating Temperature C -4 ~ +85 Storage Temperature C -55 ~ +125 [1] Operation beyond these limits may cause permanent damage. & () Frequency Response in Linear 21 C Frequency Response at Lower 21 C VSWR1 VSWR VSWR1 VSWR ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE 3. VSWR1 & VSWR2 (Ratio :1) Freq (MHz) 1 & () VSWR1 & VSWR2 (Ratio :1) Noise 21 C NF IP3 & 21 C IP3 P1 m ORDERING INFORMATION: LPA115A Rev 1.1 Copyright 211 LiConn, Inc.

51 FEATURES: APPLICATIONS: S11,, S22 () ELECTRICAL 25 C Absolute Maximum RatingS 1 Small Signal 21 C 869 MHz ~ 894MHz 3. Noise Figure 55. m output IP Gain 47. m P :1 VSWR Unconditional stable RoHS compliant Symbol Parameters/Conditions Unit Min Typical Max G Gain G Gain Variation ±.3 ±.5 NF Noise Figure 3. P 1 Output Power 1 compression Point m IP 3 Two-Tone, Pout +37 m each, 1 MHz separation m I dd Vdd= +28 V,.65 A quiescent DC bias A V dd Power Supply Voltage V S 11 Input Return Loss 16 2 S 22 Output Return Loss 16 2 S 12 Reverse Isolation 7 Z Impedance Ohm 5 S11 S () IP3 (m) IP3 vs. Pin 21 C IP3,86MHz IP3,9MHz Mobile Infrastructures GSM Fixed Wireless ORDER INFO: LPA869894A LPA869894A, 869 MHz ~ 894 MHz POWER AMPLIFIER 51 Po, each tone (m) Parameters/Conditions Unit Maximum Channel Temperature C 15 DC Supply Voltage V +3 Drain Current A 5. RF Input Power m 1 Thermal Resistance C/W 1.2 Total Power Dissipation W 17 Operating Temperature C -4 ~ +85 Storage Temperature C -55 ~ +15 [1] Operation beyond these limits may cause permanent damage. ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE Noise 21 C NF Po (m) Po & Power Added Efficiency vs. 21 C Po,86MHz Po,9MHz 86Mz, Effi (%) 9Mz, Effi (%) Idd (A) Pin, m Unit: INCH[mm] Material: Aluminum 661 Finish: Clear Conductive Coating Efficiency (%) Rev 1.1 Copyright 214 LiConn, Inc.

52 FEATURES: APPLICATIONS: S11,, S22 () ELECTRICAL 25 C Absolute Maximum RatingS 1 Small Signal 21 C 925 MHz ~ 96MHz 3. Noise Figure 55. m output IP Gain 47. m P :1 VSWR Unconditional stable RoHS compliant Symbol Parameters/Conditions Unit Min Typical Max G Gain G Gain Variation ±.3 ±.5 NF Noise Figure 3. P 1 Output Power 1 compression Point m IP 3 Two-Tone, Pout +37 m each, 1 MHz separation m I dd Vdd= +28 V,.65 A quiescent DC bias A V dd Power Supply Voltage V S 11 Input Return Loss 16 2 S 22 Output Return Loss 16 2 S 12 Reverse Isolation 7 Z Impedance Ohm 5 S11 S () IP3 (m) IP3 vs. Pin 21 C IP3,925MHz IP3,96MHz Po, each tone (m) Mobile Infrastructures GSM Fixed Wireless ORDER INFO: LPA92596A LPA92596A, 925 MHz ~ 96 MHz POWER AMPLIFIER Parameters/Conditions Unit Maximum Channel Temperature C 15 DC Supply Voltage V +3 Drain Current A 5. RF Input Power m 1 Thermal Resistance C/W 1.2 Total Power Dissipation W 17 Operating Temperature C -4 ~ +85 Storage Temperature C -55 ~ +15 [1] Operation beyond these limits may cause permanent damage. ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE Noise 21 C NF Po (m) Po vs. Pin 21 C Po,925MHz Po,96MHz 925Mz, Effi (%) 96Mz, Effi (%) Idd (A) Idd(A) 1 1 Pin (m) Unit: INCH[mm] Material: Aluminum 661 Finish: Clear Conductive Coating Rev 1.1 Copyright 214 LiConn, Inc.

53 FEATURES: APPLICATIONS: Sij () ELECTRICAL 25 C Absolute Maximum RatingS 1 Small Signal 21 C S MHz ~ 199MHz 2. Noise Figure 56. m output IP Gain 4 m P sat 1.25:1 VSWR Unconditional stable RoHS compliant Symbol Parameters/Conditions Unit Min Typical Max G Gain G Gain Variation ±.5 ± NF Noise Figure 2. P sat Output Saturated Power m 4 4 IP 3 Two-Tone, Pout +33 m each, 1 MHz separation m I dd Vdd= +28 V,.315 A quiescent DC bias A 2. V dd Power Supply Voltage V S 11 Input Return Loss 15 2 S 22 Output Return Loss S 12 Reverse Isolation 6 Z Impedance Ohm 5 S Po (m) Po & Efficiency vs. 21 C Po(m),1.93GHz Po(m),1.99GHz Efficiency(%), 1.93GHz Efficiency(%), 1.99GHz Efficiency Pin (m) Mobile Infrastructures CDMA Fixed Wireless ORDER INFO: LPA193199A LPA193199A, 193 MHz ~ 199 MHz POWER AMPLIFIER Parameters/Conditions Unit Maximum Channel Temperature C 15 DC Supply Voltage V +32 Drain Current A 2. RF Input Power m 17 Thermal Resistance C/W 1.3 Total Power Dissipation W 56 Operating Temperature C -4 ~ +85 Storage Temperature C -55 ~ +15 [1] Operation beyond these limits may cause permanent damage. ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE 5% 4% 3% 2% 1% % NF Noise 21 C Po & Idd vs. 21 C Po(m),1.93GHz Po(m),1.99GHz Idd (A),1.93GHz Idd (A),1.99GHz Po (m) Idd (A) Pin (m) Unit: INCH[mm] Material: Aluminum 661 Finish: Clear Conductive Coating.2. Rev 1.1 Copyright 214 LiConn, Inc.

54 FEATURES: 6. GHz ~ 18. GHz; 12. Gain; Noise Figure; 19. m P 1 ; 28. m IP 3 ; RoHS Compliant. APPLICATIONS: Wideband; Data Communication; Measurement. LPA618A, 6. GHz ~ 18. GHz MEDIUM POWER AMPLIFIER ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS Symbol Parameters/Conditions Unit Min Typical Max G Gain 1 12 ΔG Gain Flatness ± ± VSWR 1 Input VSWR Ratio :1 2.2:1 VSWR 2 Output VSWR Ratio 1.3:1 2.:1 S 12 Reverse Isolation 35 NF Noise Figure OIP 3 Output 3 rd Order Intercept m 28 P 1 Output 1 Gain Compression m I dd Device Current (V dd =+12V) ma 11 V dd Positive Power Supply Voltage V Z Impedance Ohm 5 21 C Ratio (:1) VSWR1 & 21 C VSWR1 VSWR Parameters/Conditions Unit Maximum Channel Temperature C +15 CW RF Input Power m 23 DC Supply Voltage V 16 Drain Current ma 15 Thermal Resistance C/W 4 Total Power Dissipation W 2. Operating Temperature C -4 ~ +85 Storage Temperature C -55 ~ +125 [1] Operation beyond these limits may cause permanent damage. ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE Noise 21 C P1 & 21 C 35 3 m 25 P1 IP ORDERING INFORMATION: LPA618A Rev 1.2 Copyright 211 LiConn, Inc.

55 FEATURES: APPLICATIONS: 2. MHz 6. GHz; 18 Gain; 2 W Output Power; Single DC Power; RoHS Compliant. Ultra Broadband Amplifier; Fiber Optic Driver; Test Instrument; EMC Amplifier Driver; LTE Measurement. LPA26A, 2. MHz ~ 6. GHz WIDE BAND 2W AMPLIFIER ELECTRICAL 21 C ABSOLUTE MAXIMUM RATINGS 1 Symbol Parameters/Conditions Unit Min Typical Max G Small Signal Gain 18 VSWR 1 VSWR Input Ratio 2.4:1 VSWR 2 VSWR Output Ratio 2.4:1 S 12 Reverse Isolation 3 P sat Output Saturate Power m 33 I dd Quiescent Current (V dd =+28V) ma 12 V dd DC Power Supply Voltage V Z Impedance Ohm 5 Parameters/Conditions Unit Maximum Channel Temperature C +22 CW RF Input Power m +27 DC Supply Voltage V 32 Drain Current ma 6 Thermal Resistance C/W Total Power Dissipation W 15 Operating Temperature C -4 ~ +85 Storage Temperature C -55 ~ Small Signal 21 C Additional Heat Sink Required Ratio (:1) VSWR1 & 21 C VSWR1 VSWR [1] Operation beyond these limits may cause permanent damage. ELECTRICAL PERFORMANCE/MECHANICAL OUTLINE & () Lower Band 21 C VSWR1 VSWR SWR1 & SWR2 (Ratio) Psat (m) Psat PWR Gain Psat & PWR 21 C Power Gain () ORDERING INFORMATION: LPA26A, LPA26A-H(Heat Sink Assembled) Rev 1.2 Copyright 211 LiConn, Inc.

56 FEATURED PRODUCT LCAL6A/B Product Description: Wooden Box Plastic ESD Box 4.12" x 3.45" x " 6" x 6" x.5" Key Performance DC ~ 6 GHz 4 Minimum Return Loss SMA High Precision Short SMA High Precision Open SMA High Precision Load SMA High Precision Thru SMA Female/Male Type Very Low Cost Long Life Time Annual Calibration Provided RoHS Compliant All Parts and Containers are Made in USA Specifications LCAL6A/B (DC- 6. GHz SMA Precision Calibration Kit) LiConn has developed high precision SMA calibration Kit for the calibration of a vector network analyzer (VNA). The calibration kit can be used for the Short-Open-Load- Thru (SOLT) or Line-Reflect-Match (LRM) Full-Two-Port calibration. The calibration kit is compatible to or better than the brand named models but is tenth fraction of their cost. Moreover, The calibration is packaged in a miniature box and very user friendly. Order Information/Kit Structure Model Short Open Load Thru LCAL6A (SMA Female Set for VNA with Male Connectors) LSHOR1 (SMA Male, use with Thru) LOPEN1(SMA Male, use with Thru) LLOAD1X (SMA Female) LTHRU1A (SMA Female/Female) LCAL6B (SMA Male Set for VNA with Female Connectors) LSHOR1 LOPEN1 LLOAD1M (SMA Male) LTHRU1B (SMA Male/Male) Summary of the electrical specifications of sample LCAL6A at 21 C: Each Calibration Kit will be measured for it s own parameters. Index Testing Item Symbol Test Constraints Min. Nom. Max. Unit 1 Load Return Loss S 11, L DC 3. GHz GHz 35 2 Thru Return Loss S 11, T DC 3. GHz GHz 35 3 Thru Insertion Loss S 21, T DC 6. GHz.5 4 Thru Offset T to 55.7 ps 5 Load Offset T Lo ps 6 Short Offset T So 55.7 ps 7 Open Offset T oo 55.7 ps 8 Open Capacitances C F C F/Hz C F/Hz^2 C F/Hz^3 Load Return Loss, 21 C S C. -5 & S11 S S11 & S Copyright 214 LiConn, Inc. For latest product information, please visit

57 LCAL6A Performance Verification Report Introduction: LCAL6A precision network calibration kit provides an accurate and reliable Short Open Load Thru (SOLT) or Load Reflect Match (LRM) calibration of a vector network analyzer. It has been proven having identical performance of Agilent 8533 calibration kit or Agilent 8552 kit of DC to 6 GHz range. Performance Verification: The Agilent 8552D calibration kit and the 2 precision pad of HP 8553B verification kit are used to compare the measured insertion loss and phase. Agilent vector network analyzer 8753ES is used for the measurement. Figure 1 shows the actual 2 precision pad connected with a mm female to female adaptor. Figure 2 is the measured insertion loss under the calibrations using calibration kits of 8552D and LCAL6A, respectively. The difference between the 2 measurements is less than.1. Figure 3 presents the measured phase, ANG[], difference between the 2. Figure 4 demonstrates the worst phase difference at around 6 GHz, which is less than 1 degree Insertion Loss 21 C, 8552D, LCAL6A Figure 1 Figure 2 Degree Phase of 21 C 18 9, 8552D, LCAL6A Phase of Comparison, Around 6 21 C , 8552D -4, LCAL6A Figure 3 Figure 4 Degree LiConn, Inc. DOC612 Rev Page 1 of 1

58 LCAL6A Application Note Rev E. LCAL6A precision network calibration kit provides an accurate and reliable Short-Open-Load-Thru (SOLT) or Load-Reflect-Match (LRM) calibration of a vector network analyzer. The kit consists the following items: 1) Short SMA female, (LTHRU1A+LSHOR1*); 2) Open SMA female, (LTHRU1A+LOPEN1*); 3) Load SMA female, (LLOAD1X); 4) Thru SMA female, (LTHRU1A). *The Thru is necessary to form the SMA Female Open and Short calibration kits. Screw the Open or Short at one end of Thru and use the other one as the SMA Female Open or Short. LOPEN1 Open LSHOR1 Short LTHRU1A Wrench section LLOAD1X Load Each calibration kit is carefully fine tuned and measured to ensure the performance factory guaranteed specifications as described in its data sheet. In order to maintain the performance of each kit, use a correct torque wrench with 5 ~ 8 Lb-Inch to screw or unscrew the kit from a test cable at the torque section. Define the cal kit parameters for SOLT calibration: Turn on a network analyzer such as Agilent 8753 ES for at least 2 hours. Load an existing calibration kit file such as Agilent 8552D. Use the following steps to modify the Agilent 8552D parameters to generate a User s kit file: a) Modify the Short Offset Delay to the number specified in the table comes with the LCAL6A, for example, 56.5 ps; b) Modify the Open Offset Delay and fringe capacitances per the specified in the table comes with the LCAL6A, for example, 56.5 ps; C: 45e-15; C1: 6e-27;C2:-e-36;C3:. c) Modify the Offsets to be ps for the Load; d) Modify the Offset Delay to 56.1 ps for the Thru; e) Save the modified Kit as User s kit and assign a name for the User s kit such as LCAL6A. Copyright 214 LiConn, Inc.