HMC600LP4 / 600LP4E POWER DETECTORS - SMT. 75 db LOGARITHMIC DETECTOR / CONTROLLER MHz. Features. Typical Applications. General Description
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1 v.99 HMC6LP4 / 6LP4E 7 db LOGARITHMIC DETECTOR / CONTROLLER - 4 MHz Typical Applications The HMC6LP4 / HMC6LP4E is ideal for IF and RF applications in: Cellular/PCS/G WiMAX, WiBro & Fixed Wireless Power Monitoring & Control Circuitry Receiver Signal Strength Indication (RSSI) Automatic Gain & Power Control Functional Diagram Features Wide Dynamic Range: up to 7 db Flexible Supply Voltage: +.7V to +.V Power-Down Mode Excellent Stability over Temperature Compact 4x4mm Leadless SMT Package General Description Electrical Specifications, T A = +C, PWD = V, Vcc, Vcc = +.V [] The HMC6LP4(E) Logarithmic Detector/Controller converts RF signals at its input, to a proportional DC voltage at its output. The HMC6LP4(E) employs a successive compression topology which delivers extremely high dynamic range and conversion accuracy over a wide input frequency range. As the input power is increased, successive amplifi ers move into saturation one by one creating an accurate approximation of the logarithm function. The output of a series of square law detectors is summed, converted into voltage domain and buffered to drive the LOGOUT output. For detection mode, the LOGOUT pin is shorted to the VSET input, and will provide a nominal logarithmic slope of 9mV/dB and an intercept of -9 dbm. The HMC6LP4(E) can also be used in the controller mode where an external voltage is applied to the VSET pin, to create an AGC or APC feedback loop. Parameter Typ. Typ. Typ. Typ. Typ. Typ. Typ. Typ. Units Input Frequency MHz ± db Dynamic Range db ± db Dynamic Range Center dbm ± db Dynamic Range db Output Slope mv/db Output Intercept dbm Temperature - dbm Input [] mdb/ C [] Detector mode measurements; LOGOUT (Pin 7) is shorted to VSET (Pin 6). [] Measured from T A = -4C to T A = +8C Parameter Conditions Min. Typ. Max. Units RF Input (INP) Return Loss F = - 4 MHz, Zo = Ω, See plot db LOGOUT Interface Open Loop Impedance 6 kω Current Drive (Source).4 ma - One Technology Way, P.O. Box 96, Norwood, MA 6-96 Phone: Order online at Alpha Road, Chelmsford, MA 84 Phone: Fax: Application Support: Phone: -8-ANALOG-D
2 v.99 HMC6LP4 / 6LP4E 7 db LOGARITHMIC DETECTOR / CONTROLLER - 4 MHz Electrical Specifications, (continued) Test Conditions Parameter Vcc, Vcc Input Zo Condition +.V Ω T A +C Fin 9 MHz INN Port connected to ground through a pf capacitor vs. Input Power, Fin = MHz Parameter Conditions Min. Typ. Max. Units Current Drive (Sink) For % change in the output voltage. ma Output Voltage Range Vcc -. V Small Signal Response Time (% to 9%) Pin = -6 to -7 dbm ns Large Signal Response Time (±. db Settling) Pin = No Signal to dbm ns Output Rise Time From % to 9% 9 ns Ripple Fin = MHz < mvpp VSET Interface Input Impedance kω Input Voltage Range.6 to.9 V Low Frequency Gain VSET to LOGOUT 78 db Open Loop Corner Frequency.6 khz Power Down (PWD) Interface Voltage Range for Normal Mode. x Vcc V Voltage Range for Shutdown Mode.8 x Vcc Vcc V Threshold Voltage Vcc/ V Power-up Response Time % PWD to ±. db Settling of LOGOUT μs Power-Down Response Time % PWD to % Icc. μs Power Supply (Vcc, Vcc) Operating Voltage Range.7. V Supply Current in Normal Mode Vcc = +.V, PWD = V 9 6 ma Supply Current in Power Down Mode Vcc = +.V, PWD = Vcc ma vs. Input Power, Fin = MHz.6 LOGOUT + C LOGOUT +8 C LOGOUT -4 C.6 LOGOUT + C LOGOUT +8 C LOGOUT -4 C..8.4 ERR + C ERR +8 C ERR -4 C ERR + C - ERR +8 C ERR -4 C Unless otherwise noted: Vcc, Vcc = +.V, T A = +C One Technology Way, P.O. Box 96, Norwood, MA 6-96 Phone: Order online at Alpha Road, Chelmsford, MA 84 Phone: Fax: Application Support: Phone: -8-ANALOG-D -
3 v.99 HMC6LP4 / 6LP4E 7 db LOGARITHMIC DETECTOR / CONTROLLER - 4 MHz vs. Input Power, Fin = MHz vs. Input Power, Fin = 9 MHz.6 LOGOUT + C LOGOUT +8 C LOGOUT -4 C.6 LOGOUT + C LOGOUT +8 C LOGOUT -4 C ERR + C ERR +8 C ERR -4 C - ERR + C.4 ERR +8 C - ERR -4 C vs. Input Power, Fin = 9 MHz LOGOUT + C LOGOUT +8 C LOGOUT -4 C ERR + C ERR +8 C ERR -4 C vs. Input Power, Fin = MHz - - vs. Input Power, Fin = MHz.6..8 LOGOUT + C LOGOUT +8 C LOGOUT -4 C.4 ERR + C - ERR +8 C ERR -4 C vs. Input Power, Fin = 4 MHz -.6 LOGOUT + C LOGOUT +8 C LOGOUT -4 C.6 LOGOUT + C LOGOUT +8 C LOGOUT -4 C ERR + C ERR +8 C ERR -4 C ERR + C ERR +8 C ERR -4 C Unless otherwise noted: Vcc, Vcc = +.V, T A = +C - 4 One Technology Way, P.O. Box 96, Norwood, MA 6-96 Phone: Order online at Alpha Road, Chelmsford, MA 84 Phone: Fax: Application Support: Phone: -8-ANALOG-D
4 v.99 HMC6LP4 / 6LP4E 7 db LOGARITHMIC DETECTOR / CONTROLLER - 4 MHz LOGOUT Slope vs. Frequency, Vcc =.V LOGOUT Slope vs. Supply Voltage, T A = +C SLOPE (mv/db) C +8 C -4 C 8 4 SLOPE (mv/db) 4 9 MHz 9 MHz 9 MHz MHz 4 MHz FREQUENCY (MHz) Vcc (V) LOGOUT Intercept vs. Frequency, Vcc = +.V INTERCEPT (dbm) C +8 C -4 C - 4 FREQUENCY (MHz) LOGOUT Error vs. Input Power, Normalized [], Fin = 9 MHz LOGOUT Intercept vs. Bias Voltage T A = +C INTERCEPT (dbm) MHz 9 MHz 9 MHz MHz 4 MHz Input Return Loss Vcc (V) NORMALIZED - +8 C -4 C INPUT RETURN LOSS (db) C +8 C -4 C FREQUENCY (GHz) [] Unless otherwise noted: Vcc, Vcc = +.V, T A = +C [] This data is relative to the room temperature performance of the HMC6LP4 One Technology Way, P.O. Box 96, Norwood, MA 6-96 Phone: Order online at Alpha Road, Chelmsford, MA 84 Phone: Fax: Application Support: Phone: -8-ANALOG-D -
5 v.99 HMC6LP4 / 6LP4E 7 db LOGARITHMIC DETECTOR / CONTROLLER - 4 MHz LOGOUT Voltage vs. Input Power and Frequency, T A = +C. MHz 9 MHz 9 MHz MHz 4 MHz Absolute Maximum Ratings Vcc, Vcc PWD VSET Input Voltage LOGOUT Output Current RF Input Power V to +.V V to +.V V to +.V ma + dbm Junction Temperature C Continuous Pdiss (T = 8 C) (Derate 7.9 mw/ C above 8 C). Watts Thermal Resistance (R th ) (junction to lead) 6 C/W Storage Temperature -6 to + C Operating Temperature -4 to +8 C ESD Sensitivity (HBM) Class C Outline Drawing ELECTROSTATIC SENSITIVE DEVICE OBSERVE HANDLING PRECAUTIONS NOTES:. LEADFRAME MATERIAL: COPPER ALLOY. DIMENSIONS ARE IN INCHES [MILLIMETERS].. LEAD SPACING TOLERANCE IS NON-CUMULATIVE 4. PAD BURR LENGTH SHALL BE.mm MAXIMUM. PAD BURR HEIGHT SHALL BE.mm MAXIMUM.. PACKAGE WARP SHALL NOT EXCEED.mm. 6. ALL GROUND LEADS AND GROUND PADDLE MUST BE SOLDERED TO PCB RF GROUND. 7. REFER TO HITTITE APPLICATION NOTE FOR SUGGESTED PCB LAND PATTERN. Unless otherwise noted: Vcc, Vcc = +.V, T A = +C - 6 One Technology Way, P.O. Box 96, Norwood, MA 6-96 Phone: Order online at Alpha Road, Chelmsford, MA 84 Phone: Fax: Application Support: Phone: -8-ANALOG-D
6 v.99 HMC6LP4 / 6LP4E 7 db LOGARITHMIC DETECTOR / CONTROLLER - 4 MHz Package Information Part Number Package Body Material Lead Finish MSL Rating Package Marking [] [] H6 HMC6LP4 Low Stress Injection Molded Plastic Sn/Pb Solder MSL XXXX [] H6 HMC6LP4E RoHS-compliant Low Stress Injection Molded Plastic % matte Sn MSL XXXX [] Max peak refl ow temperature of C [] Max peak refl ow temperature of 6 C [] 4-Digit lot number XXXX Pin Descriptions Pin Number Function Description Interface Schematic, 6, 7-,, 8-4 N/C These pins are not connected internally; however, this product is specifi ed with these pins connected to RF/DC ground., 6 Vcc, Vcc Bias supply. Connect supply voltage to both pins., 4 INP, INN 4 PWD RF Input pins. Connect RF to INP, and AC couple INN to ground for single-ended operation. Connect to V for normal operation. Applying voltage >.8 x Vcc will initiate a power saving shutdown mode. To ensure proper start-up apply the power-up sequence shown in the Power-Up Timing Diagram attached to the application circuit. 6 VSET VSET input in controller mode. Short this pin to LOGOUT for detector mode. 7 LOGOUT Logarithmic output that converts the input power to a DC level in detector mode. Short this pin to VSET for detector mode. Package Base GND Exposed paddle must be connected to RF and DC ground. One Technology Way, P.O. Box 96, Norwood, MA 6-96 Phone: Order online at Alpha Road, Chelmsford, MA 84 Phone: Fax: Application Support: Phone: -8-ANALOG-D - 7
7 v.99 HMC6LP4 / 6LP4E 7 db LOGARITHMIC DETECTOR / CONTROLLER - 4 MHz Evaluation PCB List of Materials for Evaluation PCB 4 [] Item J - J4 J - J8 Description PC Mount SMA Connector DC Pin C, C pf Capacitor, 4 Pkg. C, C4.μF Capacitor, 4 Pkg. R, R.6Ω Resistor, 6 Pkg. R-R U PCB [] Ω Resistor, 6 Pkg. HMC6LP4 / HMC6LP4E Logarithmic Detector / Controller 44 Evaluation PCB [] Reference this number when ordering complete evaluation PCB [] Circuit Board Material: Rogers 4 The circuit board used in the fi nal application should use RF circuit design techniques. Signal lines should have ohm impedance while the package ground leads and exposed paddle should be connected directly to the ground plane similar to that shown. A sufficient number of via holes should be used to connect the top and bottom ground planes. The evaluation circuit board shown is available from Hittite upon request. - 8 One Technology Way, P.O. Box 96, Norwood, MA 6-96 Phone: Order online at Alpha Road, Chelmsford, MA 84 Phone: Fax: Application Support: Phone: -8-ANALOG-D
8 v.99 HMC6LP4 / 6LP4E 7 db LOGARITHMIC DETECTOR / CONTROLLER - 4 MHz Application & Evaluation PCB Schematic Notes Note : The HMC6LP4 & HMC6LP4E evaluation boards are pre-assembled for single-ended input, and detector/rssi mode. Note : For single-ended input operation, use the INP port and make no connection to INN. INN is AC coupled to ground by C Note : For differential input, remove C, and install a pf capacitor in series with INN at location shown. Note 4: For detector mode, connect high impedence volt meter to the LOGOUT port, and make no connection to VSET. LOGOUT is shorted to VSET by R, as required for detector mode. Note : For controller mode, remove R and make appropriate connection to LOGOUT and VSET. In controller mode, the LOGOUT output can be used to drive a variable gain amplifi er, or a variable attenuator, either directly or through a buffer or microcontroller. VSET should be connected to an external supply, typically between +.6 and +.9V. Power-Up Timing Diagram One Technology Way, P.O. Box 96, Norwood, MA 6-96 Phone: Order online at Alpha Road, Chelmsford, MA 84 Phone: Fax: Application Support: Phone: -8-ANALOG-D - 9
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Typical Applications Low noise MMIC VCO w/divide-by-16 for: VSAT Radio Point to Point/Multipoint Radio Test Equipment & Industrial Controls Military End-Use Automotive Radar Features Pout: + dbm Phase
More informationFeatures OBSOLETE. = +25 C, 50 Ohm System, Vcc= 3V
Typical Applications Prescaler for DC to 4. GHz PLL Applications: DBS/CATV Tuners 82.11x & HiperLAN WLAN Fixed Wireless & WLL Microwave & VSAT Radios Cellular & 3G Functional Diagram v.93 HMC42MS8 / 42MS8E
More information= +25 C, 50 Ohm System, Vdd = +5V
v3.69 HMC68LP4 / 68LP4E VARIABLE GAIN AMPLIFIER, 3-4 MHz Variable gain amplifiers - digital - SMT Typical Applications The HMC68lp4(E) is ideal for: Cellular/3G Infrastructure WiBro / WimaX / 4G Microwave
More informationFeatures OBSOLETE. = +25 C, 50 Ohm system, Vdd = +5V. Parameter Frequency Min. Typ. Max. Units GHz
Typical Applications v.91 ATTENUATOR,.5-6. GHz Features The is ideal for: Point-to-Point Radio Cellular/3G & WiMAX/4G Infrastructure Test Instrumentation Microwave Sensors Military, ECM & Radar Functional
More informationGain Control Range db
v1.112-12 GHz Typical Applications The is ideal for: Point-to-Point Radio Point-to-Multi-Point Radio EW & ECM Subsystems X-Band Radar Test Equipment & Sensors Functional Diagram Features Wide Gain Control
More informationAnalog Devices Welcomes Hittite Microwave Corporation NO CONTENT ON THE ATTACHED DOCUMENT HAS CHANGED
Analog Devices Welcomes Hittite Microwave Corporation NO CONTENT ON THE ATTACHED DOCUMENT HAS CHANGED www.analog.com www.hittite.com THIS PAGE INTENTIONALLY LEFT BLANK Typical Applications The HMC652LP2E
More informationHMC540SLP3E v db LSB SILICON MMIC 4-BIT DIGITAL POSITIVE CONTROL ATTENUATOR, GHz
HMC54SLP3E v.95 LSB SILICON MMIC 4-BIT DIGITAL POSITIVE CONTROL ATTENUATOR,. - 8 GHz Typical Applications Features The HMC54SLP3E is ideal for both RF and IF applications: Cellular Infrastructure Wireless
More informationFeatures. = +25 C, 50 Ohm system
v6.312 Typical Applications Features The E is ideal for: Point-to-Point Radio VSAT Radio Test Instrumentation Microwave Sensors Military, ECM & Radar Functional Diagram Wide Bandwidth: 5-26.5 GHz Excellent
More informationFeatures. = +25 C, Vcc1, Vcc2 = +5V. Parameter Min. Typ. Max. Units Fo Fo/2 RFOUT RFOUT/2 RFOUT/4
v4.11 Typical Applications Low noise MMIC VCO w/half Frequency, Divide-by-4 Outputs for: VSAT Radio Point to Point/Multipoint Radio Test Equipment & Industrial Controls Military End-Use Functional Diagram
More informationParameter Frequency (GHz) Min. Typ. Max. Units DC GHz GHz GHz Attenuation Range DC GHz 31.5 db
Typical Applications The is ideal for: 3G Infrastructure & access points Cellular/3G, LTE & UMB WiMAX, WiBN & Fixed Wireless Test Equipment and Sensors GSM, WCDMA & TD-SCDMA Functional Diagram Features.5
More informationSURFACE MOUNT PHEMT 2 WATT POWER AMPLIFIER,
v2.617 AMPLIFIER, - 12 GHz Typical Applications The is ideal for use as a power amplifier for: Point-to-Point Radios Point-to-Multi-Point Radios Test Equipment and Sensors Military End-Use Features Saturated
More informationFeatures. Output Power: 2 dbm Typical Spurious Suppression: >20 dbc SSB Phase Noise: khz Offset Test Instrumentation
Typical Applications The is Ideal for: Microwave Radio & VSAT Military Radios, Radar & ECM Features Output Power: dbm Typical Spurious Suppression: > dbc SSB Phase Noise: -148 dbc/hz @ 1 khz Offset Test
More informationFeatures. = +25 C, Vcc (Dig), Vcc (Amp), Vcc (RF) = +5V. Parameter Min. Typ. Max. Units Fo Fo/2 RFOUT RFOUT/2 RFOUT/4
HMC54LP5 / 54LP5E Typical Applications Low noise MMIC VCO w/half Frequency, Divide-by-4 Outputs for: Point to Point/Multipoint Radio Test Equipment & Industrial Controls SATCOM Military End-Use Functional
More informationParameter Min. Typ. Max. Units Frequency Range GHz
v.312 27-31. GHz Typical Applications The is ideal for: Point-to-Point Radio Point-to-Multi-Point Radio EW & ECM Subsystems Ka-Band Radar & VSAT Test Equipment Functional Diagram Features Wide Gain Control
More informationHMC320MS8G / 320MS8GE. Features OBSOLETE. = +25 C, Vdd = +3V
Typical Applications The HMCMSG(E) is ideal for: UNII HiperLAN Functional Diagram v. Electrical Specifications, T A = + C, Vdd = +V HMCMSG / MSGE Features General Description Selectable Functionality:
More informationFeatures. = +25 C, With 0/+5V Control, 50 Ohm System
Typical Applications This switch is suitable for usage in 50- Ohm or 75-Ohm systems: Broadband Fiber Optics Switched Filter Banks Wireless below 8 GHz Features Broadband Performance: DC - 8 GHz High Isolation:
More informationHMC618ALP3E AMPLIFIERS - LOW NOISE - SMT. GaAs SMT phemt LOW NOISE AMPLIFIER, GHz. Typical Applications. Features. Functional Diagram
7 Typical Applications The is ideal for: Cellular/3G and LTE/WiMAX/4G BTS & Infrastructure Repeaters and Femto Cells Public Safety Radios Functional Diagram v. Electrical Specifications T A = + C, Rbias
More information= +25 C, Vdd = Vs= P/S= +5V
v3. HMC68LP5 / 68LP5E.5 db LSB GaAs MMIC 6-BIT DIGITAL VARIABLE GAIN AMPLIFIER w/ SERIAL CONTROL, DC - GHz Variable gain amplifiers - digital - SMT Typical Applications The HMC68LP5(E) is ideal for: IF
More informationDC GHz GHz
8 Typical Applications The HMC624LP4(E) is ideal for: Cellular/3G Infrastructure WiBro / WiMAX / 4G Microwave Radio & VSAT Test Equipment and Sensors IF & RF Applications Functional Diagram Features.5
More informationOBSOLETE. = +25 C, Vdd = Vs= +5V, Vctl= 0/ +5V. Parameter Frequency Min. Typ. Max. Units DC GHz 37. db Gain (Maximum Gain State)
v.1212.5 db LSB GaAs MMIC 6-BIT DIGITAL Typical Applications The is ideal for: IF & RF Applications Cellular/3G Infrastructure WiBro / WiMAX / 4G Microwave Radio & VSAT Test Equipment and Sensors Functional
More informationv3.99 Attenuation vs. Frequency over Vctrl V -1.6 V -.6 V. V Attenuation vs. Vctrl1 Over 1 GHz, Vctrl2
5 TEL:755-83396822 FAX:755-83376182 E-MAIL: szss2@163.com Typical Applications v3.99 Features The is ideal for: Point-to-Point Radio VSAT Radio Test Instrumentation Microwave Sensors Military, ECM & Radar
More informationFeatures OBSOLETE. = +25 C, as a function of Vdd. Vdd = +3V Vdd = +5V Vdd = +5V Vdd = +5V Parameter
v5.117 HMC3 / 3E GENERAL PURPOSE 1 mw GaAs MMIC AMPLIFIER,. - 3. GHz Typical Applications Broadband or Narrow Band Applications: Cellular/PCS/3G Fixed Wireless & Telematics Cable Modem Termination Systems
More informationHMC705LP4 / HMC705LP4E
Typical Applications Features The HMC75LP4(E) is ideal for: Satellite Communication Systems Point-to-Point Radios Military Applications Sonet Clock Generation Test Equipment Functional Diagram Ultra Low
More informationFeatures. = +25 C, IF = 200 MHz, LO = 0 dbm, Vcc = Vcc1, 2, 3 = +5V, G_Bias = +2.5V*
v4.1 Typical Applications The HMC685LP4(E) is Ideal for: Cellular/3G & LTE/WiMAX/4G Basestations & Repeaters GSM, CDMA & OFDM Transmitters and Receivers Features High Input IP3: +35 dbm 8 db Conversion
More informationFeatures. = +25 C, Vcc = +5V, Z o = 50Ω, Bias1 = GND
v1.612 Typical Applications The is ideal for: LO Generation with Low Noise Floor Clock Generators Mixer LO Drive Military Applications Test Equipment Sensors Functional Diagram Features Low Noise Floor:
More informationHMC913LC4B. SDLVAs - SMT. SUCCESSIVE DETECTION LOG VIDEO AMPLIFIER (SDLVA), GHz
v5.64 HMC93LC4B AMPLIFIER (SDLVA),.6 - GHz Typical Applications The HMC93LC4B is ideal for: EW, ELINT & IFM Receivers DF Radar Systems ECM Systems Broadband Test & Measurement Power Measurement & Control
More informationFeatures. = +25 C, Vcc = +5V. Parameter Min. Typ. Max. Units Fo Fo/2 RFOUT RFOUT/2
Typical Applications Low noise MMIC VCO w/half Frequency, for: VSAT Radio Point to Point/Multi-Point Radio Test Equipment & Industrial Controls Military End-Use Functional Diagram Features Dual Output:
More informationFrequency vs. Tuning Voltage, Vcc = +4.2V 17 Frequency vs. Tuning Voltage, T= 25 C FREQUENCY (GHz) FREQUENCY (GHz) Vcc = 4.
Typical Applications The HMC736LP4(E) is ideal for: Point to Point/Multipoint Radio Test Equipment & Industrial Controls SATCOM Military End-Use Functional Diagram Features Dual Output: Fo = Fo/2 = 7.25-7.5
More informationFeatures. Upconversion & Downconversion Applications MIXERS - SINGLE & DOUBLE BALANCED - SMT
v1. Typical Applications The HMC688LP4(E) is Ideal for: Cellular/3G & LTE/WiMAX/4G Basestations & Repeaters GSM, CDMA & OFDM Transmitters and Receivers Features High Input IP3: +35 dbm Low Conversion Loss:
More informationHMC705LP4 / HMC705LP4E
HMC75LP4 / HMC75LP4E v4.212 Typical Applications Features The HMC75LP4(E) is ideal for: Satellite Communication Systems Point-to-Point Radios Military Applications Sonet Clock Generation Test Equipment
More informationParameter Frequency (GHz) Min. Typ. Max. Units DC GHz GHz GHz Attenuation Range DC GHz 31.5 db
v..5 LSB GaAs MMIC 6-BIT DIGITAL Typical Applications The is ideal for: 3G Infrastructure & access points Cellular/3G, LTE & UMB WiMAX, WiBN & Fixed Wireless Test Equipment and Sensors GSM, WCDMA & TD-SCDMA
More informationHMC349LP4C / 349LP4CE
Typical Applications The HMC349LP4C / HMC349LP4CE is ideal for: Basestation Infrastructure MMDS & 3.5 GHz WLL CATV/CMTS Test Instrumentation Functional Diagram Features High Isolation: 67 @ 1 GHz 62 @
More informationFeatures. Upconversion & Downconversion Applications MIXERS - SINGLE & DOUBLE BALANCED - SMT
v1. Typical Applications The HMC689LP4(E) is Ideal for: Cellular/3G & LTE/WiMAX/4G Basestations & Repeaters GSM, CDMA & OFDM Transmitters and Receivers Features High Input IP3: +32 dbm Low Conversion Loss:
More informationFeatures. = +25 C, Vcc1, Vcc2 = +3V. Parameter Min. Typ. Max. Units Fo Fo/2 RFOUT RFOUT/2 RFOUT/4
v4.11 Typical Applications Low noise MMIC VCO w/half Frequency, Divide-by-4 Outputs for: VSAT Radio Point to Point/Multipoint Radio Test Equipment & Industrial Controls Military End-Use Functional Diagram
More informationHMC310MS8G / 310MS8GE. Features OBSOLETE. = +25 C, Vdd = +3V
Typical Applications Transmit & Receive Switch for 2. GHz Applications: Bluetooth HomeRF WLAN Radios Functional Diagram v3.67 Electrical Specifications, T A = +25 C, Vdd = +3V HMC31MSG / 31MSGE Features
More informationFeatures. = +25 C, 50 Ohm System, Vcc= 5V
Typical Applications Programmable divider for offset synthesizer and variable divide by N applications: Satellite Communication Systems Point-to-Point and Point-to-Multi-Point Radios LMDS SONET Functional
More informationFeatures OBSOLETE. Parameter Min. Typ. Max. Units. Frequency Range GHz Insertion Loss 5 7 db. Input Return Loss 16 db
v1.611 Typical Applications The is ideal for: EW Receivers Weather & Military Radar Satellite Communications Beamforming Modules Phase Cancellation Functional Diagram Features Low RMS Phase Error: 1.2
More informationHMC1040LP3CE. Amplifiers - Low Noise - smt. GaAs phemt MMIC LOW NOISE AMPLIFIER, GHz. Features. Typical Applications. General Description
v.112 HMC14LP3CE AMPLIFIER, 24-43. GHz Typical Applications This HMC14LP3BE is ideal for: Point-to-Point Radios Test Instrumentation SatCom Transponders & VSAT Industrial Sensors EW & ECM Subsystems Functional
More information= +25 C, With Vee = -5V & VCTL= 0/-5V
v.3.5db LSB GaAs MMIC 6-BIT DIGITAL Typical Applications Features The is ideal for: Basestation Infrastructure Fiber Optics & Broadband Telecom Microwave & VSAT Radios Military & Space Test Instrumentation
More informationFeatures. Pout: +9 dbm. Parameter Min. Typ. Max. Units
Typical Applications Phase-Locked Oscillator for: SAT Radio Point-to-Point & Point-to-Multi-Point Radio Test Equipment & Industrial Controls Military End-Use Functional Diagram Features Pout: +9 dbm Phase
More informationAnalog Devices Welcomes Hittite Microwave Corporation NO CONTENT ON THE ATTACHED DOCUMENT HAS CHANGED
Analog Devices Welcomes Hittite Microwave Corporation NO CONTENT ON THE ATTACHED DOCUMENT HAS CHANGED www.analog.com www.hittite.com HMC461* Product Page Quick Links Last Content Update: 8/3/216 Comparable
More informationParameter Min. Typ. Max. Units
v4.112 Typical Applications The is ideal for: Point-to-Point and Point-to-Multi-Point Radio Military Radar, EW & ELINT Satellite Communications Functional Diagram Features General Description The is a
More information7 GHz INTEGER N SYNTHESIZER CONTINUOUS (N = ), NON-CONTINUOUS (N = 16-54) Features
HMC99LP5 / 99LP5E CONTINUOUS (N = 5-519), NON-CONTINUOUS (N = 1-54) Typical Applications The HMC99LP5(E) is ideal for: Satellite Communication Systems Point-to-Point Radios Military Applications Sonet
More information= +25 C, with Vcc = +5V. Parameter Frequency (GHz) Min. Typ. Max. Units DC GHz GHz GHz Attenuation Range DC GHz 31.
Typical Applications The is ideal for: Cellular/PCS/3G Infrastructure ISM, MMDS, WLAN, WiMAX, & WiBro Microwave Radio & VSAT Test Equipment and Sensors Functional Diagram Features.5 db LSB Steps to 31.5
More informationFrequency vs. Tuning Voltage, Vcc = +5V OUTPUT FREQUENCY (GHz) Frequency vs. Tuning Voltage, T= 25 C OUTPUT F
Typical Applications The HMC734LP5(E) is ideal for: Point-to-Point/Multi-Point Radio Test Equipment & Industrial Controls SATCOM Military End-Use Functional Diagram Features Dual Output: Fo = Fo/4 = 2.15-2.55
More informationOBSOLETE HMC881LP5E FILTERS - TUNABLE - SMT. FILTER - TUNABLE, LOW PASS SMT GHz. Typical Applications. General Description. Functional Diagram
Typical Applications The is ideal for: Test & Measurement Equipment Military RADAR & EW/ECM SATCOM & Space Industrial & Medical Equipment Functional Diagram v1.11 Electrical Specifications, T A = +25 C
More informationFeatures. = +25 C, Vcc = +3.3V, Z o = 50Ω
Typical Applications The is ideal for: LO Generation with Low Noise Floor Software Defined Radios Clock Generators Fast Switching Synthesizers Military Applications Test Equipment Sensors Functional Diagram
More information