81 GHz to 86 GHz E-Band I/Q Downconverter HMC7587 Data Sheet FEATURES GENERAL DESCRIPTION Conversion gain: 10 dB typical Image rejection: 30 dBc typical Noise figure: 6 dB typical Input power for 1 dB compression (P1dB): -10 dBm typical Input third-order intercept (IP3): -2 dBm typical Input second-order intercept (IP2): 25 dBm typical 6x LO leakage at RFIN: -40 dBm typical Radio frequency (RF) return loss: 10 dB typical Local oscillator (LO) return loss: 20 dB typical Die size: 3.599 mm x 2.199 mm x 0.05 mm The HMC7587 is an integrated, E-band gallium arsenide (GaAs), monolithic microwave integrated circuit (MMIC), in-phase/ quadrature (I/Q) downconverter chip that operates from 81 GHz to 86 GHz. The HMC7587 provides a small signal conversion gain of 10 dB with 30 dBc of image rejection across the frequency band. The device uses a low noise amplifier followed by an image rejection mixer that is driven by a 6x multiplier. The image rejection mixer eliminates the need for a filter following the low noise amplifier. Differential I and Q mixer outputs are provided for direct conversion applications. Alternatively, the outputs can be combined using an external 90 hybrid and two external 180 hybrids to allow for single-sideband applications. All data includes the effect of a 3 mil wide ribbon wedge bond on the RF port, and a 1 mil gold wire wedge bond on the intermediate frequency (IF) ports. APPLICATIONS E-band communication systems High capacity wireless backhauls Test and measurement FUNCTIONAL BLOCK DIAGRAM 13 14 15 16 17 18 19 20 21 LOIN 12 VGX2 11 VGX3 10 VDMULT 9 VDAMP1 8 VDAMP2 VGMIX 7 VGAMP 6 IFIP 5 IFIN 4 x6 IFQN 3 RFIN IFQP 2 22 39 38 37 36 34 33 32 31 30 VGLNA1 VDLNA1 VGLNA2 VDLNA2 VGLNA3 35 29 28 27 26 24 25 13141-001 40 VDLNA3 HMC7587 VDLNA4 1 VGLNA4 23 Figure 1. Rev. A Document Feedback Information furnished by Analog Devices is believed to be accurate and reliable. However, no responsibility is assumed by Analog Devices for its use, nor for any infringements of patents or other rights of third parties that may result from its use. Specifications subject to change without notice. No license is granted by implication or otherwise under any patent or patent rights of Analog Devices. Trademarks and registered trademarks are the property of their respective owners. One Technology Way, P.O. Box 9106, Norwood, MA 02062-9106, U.S.A. Tel: 781.329.4700 (c)2016 Analog Devices, Inc. All rights reserved. Technical Support www.analog.com HMC7587 Data Sheet TABLE OF CONTENTS Features .............................................................................................. 1 Applications ....................................................................................... 1 General Description ......................................................................... 1 Functional Block Diagram .............................................................. 1 Revision History ............................................................................... 2 Specifications..................................................................................... 3 Absolute Maximum Ratings............................................................ 4 Thermal Resistance ...................................................................... 4 ESD Caution .................................................................................. 4 Pin Configuration and Function Descriptions ............................. 5 Interface Schematics..................................................................... 6 Typical Performance Characteristics ............................................. 7 Upper Sideband Selected, IF = 500 MHz .................................. 7 Upper Sideband Selected, IF = 1000 MHz .............................. 13 Upper Sideband Selected, IF = 2000 MHz .............................. 18 Noise Figure Performance with Upper Sideband Selected ... 23 Amplitude Balance Performance with Upper Sideband Selected ........................................................................................ 24 Phase Balance Performance with Upper Sideband Selected 25 Lower Sideband Selected, IF = 500 MHz ................................ 26 Lower Sideband Selected, IF = 1000 MHz .............................. 31 Lower Sideband Selected, IF = 2000 MHz .............................. 36 Noise Figure Performance with Lower Sideband Selected ... 41 Amplitude Balance Performance with Lower Sideband Selected ........................................................................................ 42 Spurious Performance with Upper Sideband Selected, IF = 500 MHz ...................................................................................... 44 Spurious Performance with Upper Sideband Selected, IF = 1000 MHz .................................................................................... 45 Spurious Performance with Upper Sideband Selected, IF = 2000 MHz .................................................................................... 46 Spurious Performance with Lower Sideband Selected, IF = 500 MHz ...................................................................................... 47 Spurious Performance with Lower Sideband Selected, IF = 1000 MHz .................................................................................... 48 Spurious Performance with Lower Sideband Selected, IF = 2000 MHz .................................................................................... 49 Theory of Operation ...................................................................... 50 Applications Information .............................................................. 51 Biasing Sequence ........................................................................ 51 Image Rejection Downconversion ........................................... 51 Zero IF Direct Conversion ........................................................ 52 Assembly Diagram ..................................................................... 53 Mounting and Bonding Techniques for Millimeterwave GaAs MMICs ............................................................................................. 54 Handling Precautions ................................................................ 54 Mounting ..................................................................................... 54 Wire Bonding.............................................................................. 54 Outline Dimensions ....................................................................... 55 Ordering Guide .......................................................................... 55 Phase Balance Performance with Lower Sideband Selected. 43 REVISION HISTORY 3/16--Revision A: Initial Version Rev. A | Page 2 of 55 Data Sheet HMC7587 SPECIFICATIONS TA = 25C, IF = 500 MHz, VGMIX = -1 V, VDAMPx = 4 V, VDMULT = 1.5 V, voltage on the VDLNAx pins (VDLNA) = 3 V, LO = 2 dBm, upper sideband selected. Measurements performed as a downconverter with external 90 and 180 hybrids at the IF ports, unless otherwise noted. Table 1. Parameter OPERATING CONDITIONS RF Frequency Range LO Frequency Range IF Frequency Range LO Drive Range PERFORMANCE Conversion Gain Image Rejection Input Third-Order Intercept (IP3) Input Second-Order Intercept (IP2) Input Power for 1 dB Compression (P1dB) 6x LO Leakage at RF Input (RFIN) 1x LO Leakage at IF Output (IFOUT) Amplitude Balance 1 Phase Balance1 Noise Figure RF Return Loss LO Return Loss IF Return Loss1 POWER SUPPLY Supply Current IDAMP 2 IDMULT 3 IDLNA 4 Test Conditions/Comments Min Typ 81 11.83 0 2 8 20 LO = 2 dBm at 12 GHz Under LO drive Max Unit 86 14.33 10 8 GHz GHz GHz dBm 10 30 -2 25 -10 -40 -50 -0.5 4 6 10 20 25 dB dBc dBm dBm dBm dBm dBm dB Degrees dB dB dB dB 175 80 50 mA mA mA These measurements were performed without external hybrids at the IF ports. Adjust VGAMP between -2 V and 0 V to achieve the total quiescent current, IDAMP = IDAMP1 + IDAMP2 = 175 mA. 3 Adjust VGX2 and VGX3 between -2 V and 0 V to the achieve the quiescent current, IDMULT = 1 mA to 2 mA. See the Applications Information section for more information. 4 Adjust VGLNAx between -2 V and 0 V to achieve the quiescent current, IDLNA1 + IDLNA2 + IDLNA3 + IDLNA4 = 50 mA. 1 2 Rev. A | Page 3 of 55 HMC7587 Data Sheet ABSOLUTE MAXIMUM RATINGS THERMAL RESISTANCE Table 2. Parameter Drain Bias Voltage VDAMP1, VDAMP2 VDMULT VDLNA1, VDLNA2, VDLNA3, VDLNA4 Gate Bias Voltage VGAMP VGX2, VGX3 VGLNA1, VGLNA2, VGLNA3, VGLNA4 VGMIX LO Input Power Maximum Junction Temperature (to Maintain 1 Million Hours Mean Time to Failure (MTTF)) Storage Temperature Range Operating Temperature Range Table 3. Thermal Resistance Rating Package Type 40-Pad Bare Die [CHIP] 4.5 V 3V 4.5 V 1 Unit C/W Based on ABLEBOND(R) 84-1LMIT as die attach epoxy with thermal conductivity of 3.6 W/mK. ESD CAUTION -3 V to 0 V -3 V to 0 V -3 V to 0 V -3 V to 0 V 10 dBm 175C JC1 61.7 -65C to +150C -55C to +85C Stresses at or above those listed under Absolute Maximum Ratings may cause permanent damage to the product. This is a stress rating only; functional operation of the product at these or any other conditions above those indicated in the operational section of this specification is not implied. Operation beyond the maximum operating conditions for extended periods may affect product reliability. Rev. A | Page 4 of 55 Data Sheet HMC7587 18 19 GND 20 21 GND 17 LOIN 16 GND 15 VGX2 14 GND 13 VGX3 12 GND 11 VDMULT 10 GND GND 9 VDAMP1 8 GND 7 VGAMP 6 VDAMP2 IFIP 5 VGMIX PIN CONFIGURATION AND FUNCTION DESCRIPTIONS IFIN 4 HMC7587 IFQN 3 IFQP 2 GND 22 GND VDLNA3 GND VGLNA3 GND VDLNA2 GND VGLNA2 GND VDLNA1 GND VGLNA1 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25 13141-002 VGLNA4 40 GND 24 GND GND 1 GND VDLNA4 RFIN 23 Figure 2. Pad Configuration Table 4. Pad Function Descriptions Pad No. 1, 7, 9, 11, 13, 15, 17, 19, 21, 22, 24, 25, 27, 29, 31, 33, 35, 37, 39 2, 3 Mnemonic GND Description Ground Connect (See Figure 3). IFQP, IFQN 4, 5 IFIN, IFIP 6 VGMIX 8, 12 VDAMP2, VDAMP1 10 VGAMP 14 VDMULT 16, 18 VGX3, VGX2 20 23 26, 30, 34, 38 LOIN RFIN VGLNA1, VGLNA2, VGLNA3, VGLNA4 VDLNA1, VDLNA2, VDLNA3, VDLNA4 GND Positive and Negative IF Q Inputs. These pads are dc-coupled. When operation to dc is not required, block these pads externally using a series capacitor with a value chosen to pass the necessary frequency range. For operation to dc, these pads must not source or sink more than 3 mA of current or die malfunction and possible die failure may result (see Figure 4). Negative and Positive IF I Inputs. These pads are dc-coupled. When operation to dc is not required, block these pads externally using a series capacitor with a value chosen to pass the necessary frequency range. For operation to dc, these pads must not source or sink more than 3 mA of current or die malfunction and possible die failure may result (see Figure 4). Gate Voltage for the FET Mixer (See Figure 5). External bypass capacitors of 120 pF, 0.01 F, and 4.7 F are recommended (see Figure 211). Power Supply Voltage for the First and the Second Stage LO Amplifier (See Figure 5). External bypass capacitors of 120 pF, 0.01 F, and 4.7 F are recommended (see Figure 211). Gate Voltage for the First and the Second Stage LO Amplifier (See Figure 5). External bypass capacitors of 120 pF, 0.01 F, and 4.7 F are recommended (see Figure 211). Power Supply Voltage for the LO Multiplier (See Figure 5). External bypass capacitors of 120 pF, 0.01 F, and 4.7 F are recommended (see Figure 211). Gate Voltage for the LO Multiplier (See Figure 5). External bypass capacitors of 120 pF, 0.01 F, and 4.7 F are recommended (see Figure 211). Local Oscillator Input. This pad is dc-coupled and matched to 50 (see Figure 6). RF Input. This pad is ac-coupled and matched to 50 (see Figure 7). Gate Voltage for the Low Noise Amplifier (See Figure 8). External bypass capacitors of 120 pF, 0.01 F, and 4.7 F are recommended (see Figure 211). Power Supply Voltage for the Low Noise Amplifier (See Figure 8). External bypass capacitors of 120 pF, 0.01 F, and 4.7 F are recommended (see Figure 211). Ground. The die bottom must be connected to RF/dc ground (see Figure 3). 28, 32, 36, 40 Die Bottom Rev. A | Page 5 of 55 HMC7587 Data Sheet INTERFACE SCHEMATICS 13141-006 13141-003 LOIN GND Figure 3. GND Interface Figure 6. LOIN Interface 200 RFIN Figure 4. IFIN, IFIP, IFQN, and IFQP Interface Figure 7. RFIN Interface VDLNA1 , VDLNA2 , VDLNA3 , VDLNA4 VDAMP1 , VDAMP2 , VDMULT 13141-005 Figure 5. VGMIX, VDAMP1, VDAMP2, VDMULT, VGAMP, VGX2, and VGX3 Interface VGLNA1 , VGLNA2, VGLNA3 , VGLNA4 13141-008 100 100 VGMIX, VGAMP, VGX2, VGX3 13141-007 13141-004 IFIN, IFIP, IFQN, IFQP Figure 8. VDLNA1, VDLNA2, VDLNA3, VDLNA4, VGLNA1, VGLNA2, VGLNA3, and VGLNA4 Interface Rev. A | Page 6 of 55 Data Sheet HMC7587 TYPICAL PERFORMANCE CHARACTERISTICS UPPER SIDEBAND SELECTED, IF = 500 MHz 16 16 14 TA = +85C TA = +25C TA = -55C 12 12 CONVERSION GAIN (dB) 10 8 6 4 10 8 6 2 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 9. Conversion Gain vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, Voltage on the VDLNAx Pins (VDLNA) = 4 V 14 14 12 12 CONVERSION GAIN (dB) 16 8 LO LO LO LO LO LO LO 6 4 2 0 81.0 81.5 82.0 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 82.5 83.0 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 4 0 81.0 -8 -4 83.0 83.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 11. Conversion Gain vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V IDLNA IDLNA IDLNA IDLNA IDLNA -8 -16 84.5 82.5 84.0 84.5 85.0 85.5 86.0 0 -12 84.0 82.0 4 -16 83.5 81.5 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 8 -12 83.0 85.5 86.0 12 -4 82.5 85.0 16 0 82.0 84.5 20 = 30mA = 35mA = 40mA = 45mA = 50mA 4 81.5 84.0 Figure 13. Conversion Gain vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 500 MHz, VDLNA = 3 V 8 -20 81.0 83.5 RF FREQUENCY (GHz) 13141-011 CONVERSION GAIN (dB) 12 IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA LO LO LO LO LO LO LO 6 CONVERSION GAIN (dB) 16 IDLNA IDLNA IDLNA IDLNA IDLNA 83.0 8 Figure 10. Conversion Gain vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 500 MHz, VDLNA = 4 V 20 82.5 10 2 83.5 82.0 Figure 12. Conversion Gain vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V 16 10 81.5 RF FREQUENCY (GHz) 13141-010 CONVERSION GAIN (dB) 0 81.0 13141-013 81.5 13141-012 2 13141-009 0 81.0 TA = +85C TA = +25C TA = -55C 4 -20 81.0 81.5 82.0 82.5 83.0 = 5mA = 10mA = 15mA = 20mA = 25mA 83.5 84.0 84.5 IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 14. Conversion Gain vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V Rev. A | Page 7 of 55 13141-014 CONVERSION GAIN (dB) 14 HMC7587 Data Sheet 0 0 -5 TA = +85C TA = +25C TA = -55C IMAGE REJECTION (dBc) -20 -25 -30 -35 -30 -35 -40 -45 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 15. Image Rejection vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V -50 81.0 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 18. Image Rejection vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V 0 -15 -20 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm LO LO LO LO LO LO LO -5 -10 IMAGE REJECTION (dBc) LO LO LO LO LO LO LO -10 -25 -30 -35 -15 -20 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm -25 -30 -35 -40 -45 -50 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-016 -45 -50 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 16. Image Rejection vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 500 MHz, VDLNA = 4 V 13141-019 -40 Figure 19. Image Rejection vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 500 MHz, VDLNA = 3 V 0 0 -15 IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA -10 -20 -25 -30 -35 -15 -35 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-017 -45 83.0 Figure 17. Image Rejection vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V = 30mA = 35mA = 40mA = 45mA = 50mA -30 -40 82.5 IDLNA IDLNA IDLNA IDLNA IDLNA -25 -45 82.0 = 5mA = 10mA = 15mA = 20mA = 25mA -20 -40 81.5 IDLNA IDLNA IDLNA IDLNA IDLNA -5 -50 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 20. Image Rejection vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V Rev. A | Page 8 of 55 13141-020 -10 = 5mA = 10mA = 15mA = 20mA = 25mA IMAGE REJECTION (dBc) IDLNA IDLNA IDLNA IDLNA IDLNA -5 -50 81.0 81.5 RF FREQUENCY (GHz) 0 -5 IMAGE REJECTION (dBc) -25 -45 -50 81.0 IMAGE REJECTION (dBc) -15 -20 -40 13141-015 IMAGE REJECTION (dBc) -15 TA = +85C TA = +25C TA = -55C -10 13141-018 -5 -10 Data Sheet HMC7587 10 10 8 8 TA = +85C TA = +25C TA = -55C 6 4 2 IP3 (dBm) 0 -2 -6 -8 -8 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) -10 81.0 8 6 6 4 4 2 2 IP3 (dBm) 10 8 0 -6 -8 -10 81.0 81.5 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 82.0 82.5 83.5 84.0 84.5 85.0 85.5 86.0 LO LO LO LO LO LO LO = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 0 -2 -6 -8 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) -10 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 22. Input IP3 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 500 MHz, VDLNA = 4 V Figure 25. Input IP3 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 500 MHz, VDLNA = 3 V 10 10 8 8 6 6 4 4 IP3 (dBm) 2 0 -2 -6 -8 81.5 82.0 IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA 82.5 83.0 83.5 = 30mA = 35mA = 40mA = 45mA = 50mA 84.0 84.5 IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA 82.0 82.5 IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA 2 0 -2 -4 -6 -8 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-023 IDLNA IDLNA IDLNA IDLNA IDLNA -4 -10 81.0 83.0 -4 13141-022 LO LO LO LO LO LO LO 82.5 Figure 24. Input IP3 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V 10 -4 82.0 RF FREQUENCY (GHz) Figure 21. Input IP3 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V -2 81.5 13141-025 82.0 13141-021 81.5 13141-024 -6 -10 81.0 IP3 (dBm) -2 -4 -4 IP3 (dBm) 2 0 Figure 23. Input IP3 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V -10 81.0 81.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 26. Input IP3 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V Rev. A | Page 9 of 55 13141-026 IP3 (dBm) 4 TA = +85C TA = +25C TA = -55C 6 HMC7587 Data Sheet 50 50 45 TA = +85C TA = +25C TA = -55C 40 35 IP2 (dBm) 30 25 20 20 10 10 5 5 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 0 81.0 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 30. Input IP2 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V 50 40 35 30 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 40 35 25 20 30 20 15 10 10 5 0 81.0 0 81.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-028 5 82.0 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 25 15 81.5 LO LO LO LO LO LO LO 45 IP2 (dBm) LO LO LO LO LO LO LO 45 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 28. Input IP2 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 500 MHz, VDLNA = 4 V 13141-031 50 Figure 31. Input IP2 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 500 MHz, VDLNA = 3 V 50 45 40 40 35 35 30 30 IP2 (dBm) 45 25 20 10 5 81.5 82.0 82.5 83.0 IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA 83.5 84.0 84.5 = 30mA = 35mA = 40mA = 45mA = 50mA 85.0 85.5 86.0 RF FREQUENCY (GHz) 20 IDLNA IDLNA IDLNA IDLNA IDLNA 15 10 5 13141-029 IDLNA IDLNA IDLNA IDLNA IDLNA 15 25 Figure 29. Input IP2 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V 0 81.0 81.5 82.0 82.5 83.0 = 5mA = 10mA = 15mA = 20mA = 25mA 83.5 84.0 IDLNA IDLNA IDLNA IDLNA IDLNA 84.5 = 30mA = 35mA = 40mA = 45mA = 50mA 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 32. Input IP2 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V Rev. A | Page 10 of 55 13141-032 50 0 81.0 81.5 RF FREQUENCY (GHz) Figure 27. Input IP2 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V IP2 (dBm) 25 15 0 81.0 IP2 (dBm) 30 15 13141-027 IP2 (dBm) 35 TA = +85C TA = +25C TA = -55C 40 13141-030 45 Data Sheet 0 0 -2 -2 TA = +85C TA = +25C TA = -55C -8 -6 -8 -10 -10 -12 -12 82.0 82.5 83.0 83.5 84.0 85.0 84.5 85.5 86.0 RF FREQUENCY (GHz) -14 81.0 13141-033 81.5 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 33. Input P1dB vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V 13141-036 -6 -14 81.0 TA = +85C TA = +25C TA = -55C -4 P1dB (dBm) -4 P1dB (dBm) HMC7587 Figure 36. Input P1dB vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V -30 -30 TA = +85C TA = +25C TA = -55C -35 TA = +85C TA = +25C TA = -55C -35 LEAKAGE (dBm) LEAKAGE (dBm) -40 -45 -50 -55 -40 -45 -50 -60 -55 -60 81.0 14.4 1x LO FREQUENCY (GHz) 13141-034 14.3 14.2 14.1 14.0 13.9 13.8 13.7 13.6 13.5 13.4 13.3 13.2 13.1 13.0 12.9 -70 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 6x LO FREQUENCY (GHz) Figure 37. 6x LO Leakage at RFIN vs. 6x LO Frequency at Various Temperatures, LO = 2 dBm, VDLNA = 3 V Figure 34. 1x LO Leakage at IFOUT vs. 1x LO Frequency at Various Temperatures, LO = 2 dBm, VDLNA = 3 V -30 -30 LO LO LO LO -35 = 2dBm = 4dBm = 6dBm = 8dBm LO LO LO LO LO -35 LEAKAGE (dBm) -40 -45 -50 -55 = 0dBm = 2dBm = 4dBm = 6dBm = 8dBm -40 -45 -50 -60 -55 13141-035 1x LO FREQUENCY (GHz) 14.4 14.3 14.2 14.1 14.0 13.9 13.8 13.7 13.6 13.5 13.4 13.3 13.2 13.1 13.0 -70 -60 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 6x LO FREQUENCY (GHz) Figure 38. 6x LO Leakage at RFIN vs. 6x LO Frequency at Various LO Powers, VDLNA = 3 V Figure 35. 1x LO Leakage at IFOUT vs. 1x LO Frequency at Various LO Powers, VDLNA = 3 V Rev. A | Page 11 of 55 86.0 13141-038 -65 12.9 LEAKAGE (dBm) 81.5 13141-037 -65 HMC7587 Data Sheet 0 0 -4 -6 -6 RETURN LOSS (dB) -4 -8 -10 -12 -14 -14 -16 -18 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 39. RF Return Loss vs. RF Frequency at Various Temperatures, LO = 2 dBm, LO = 12 GHz, VDLNA = 4 V -20 81.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 0 LO LO LO LO LO LO LO -5 -10 -15 -20 -25 -15 -20 -25 -30 -35 -35 12.6 13.0 13.4 13.8 14.2 14.6 LO FREQUENCY (GHz) 13141-040 -30 12.2 Figure 40. LO Return Loss vs. LO Frequency at Various Temperatures, LO = 2 dBm, VDLNA = 3 V 0 IFQP IFIP IFQN IFQP -5 -10 -15 -20 -25 -30 1.1 2.1 3.1 4.1 5.1 6.1 7.1 8.1 IF FREQUENCY (GHz) 9.1 10.1 13141-041 -35 Figure 41. IF Return Loss vs. IF Frequency, LO = 2 dBm at 12 GHz, VDLNA = 3 V Rev. A | Page 12 of 55 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm -40 11.8 12.2 12.6 13.0 13.4 13.8 14.2 14.6 LO FREQUENCY (GHz) Figure 43. LO Return Loss vs. LO Frequency at Various LO Powers, VDLNA = 3 V 13141-043 RETURN LOSS (dB) -10 -40 0.1 82.0 Figure 42. RF Return Loss vs. RF Frequency at Various Temperatures, LO = 2 dBm, LO = 12 GHz, VDLNA = 3 V TA = +85C TA = +25C TA = -55C -5 -40 11.8 81.5 RF FREQUENCY (GHz) 0 RETURN LOSS (dB) -12 -18 RF FREQUENCY (GHz) RETURN LOSS (dB) -8 -10 -16 -20 81.0 TA = +85C TA = +25C TA = -55C -2 13141-039 RETURN LOSS (dB) -2 13141-042 TA = +85C TA = +25C TA = -55C Data Sheet HMC7587 UPPER SIDEBAND SELECTED, IF = 1000 MHz 16 16 14 TA = +85C TA = +25C TA = -55C 12 CONVERSION GAIN (dB) 10 8 6 4 6 83.0 83.5 84.0 84.5 85.0 85.5 86.0 0 81.0 14 12 12 CONVERSION GAIN (dB) 14 8 6 4 2 81.5 82.0 82.5 83.0 83.5 84.0 84.5 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 85.0 85.5 86.0 RF FREQUENCY (GHz) 12 IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA 4 12 -4 -8 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-046 84.5 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 46. Conversion Gain vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA 83.5 84.0 -4 -8 -16 84.0 82.0 0 -16 83.5 81.5 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 4 -12 83.0 85.5 86.0 8 -12 82.5 85.0 LO LO LO LO LO LO LO 6 16 0 82.0 84.5 8 20 = 30mA = 35mA = 40mA = 45mA = 50mA 4 81.5 84.0 Figure 48. Conversion Gain vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 1000 MHz, VDLNA = 3 V 8 -20 81.0 83.5 RF FREQUENCY (GHz) CONVERSION GAIN (dB) 16 IDLNA IDLNA IDLNA IDLNA IDLNA 83.0 10 0 81.0 Figure 45. Conversion Gain vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 1000 MHz, VDLNA = 4 V 20 82.5 2 13141-045 LO LO LO LO LO LO LO 82.0 Figure 47. Conversion Gain vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V 16 10 81.5 RF FREQUENCY (GHz) 16 0 81.0 TA = +85C TA = +25C TA = -55C 4 13141-047 82.5 Figure 44. Conversion Gain vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V CONVERSION GAIN (dB) 8 13141-048 82.0 13141-044 81.5 RF FREQUENCY (GHz) CONVERSION GAIN (dB) 10 2 2 0 81.0 12 -20 81.0 81.5 82.0 82.5 83.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 49. Conversion Gain vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V Rev. A | Page 13 of 55 13141-049 CONVERSION GAIN (dB) 14 HMC7587 Data Sheet 0 0 -4 -4 IMAGE REJECTION (dBc) -16 -20 -24 -28 -20 -24 -28 -32 -36 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 50. Image Rejection vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V -40 81.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 53. Image Rejection vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V -8 -20 -24 -28 -12 -16 -24 -28 -32 -36 -36 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) -40 81.0 13141-051 82.0 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm -20 -32 81.5 LO LO LO LO LO LO LO -4 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 51. Image Rejection vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 1000 MHz, VDLNA = 4 V 13141-054 -16 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm IMAGE REJECTION (dBc) -8 Figure 54. Image Rejection vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 1000 MHz, VDLNA = 3 V 0 -8 -12 = 5mA = 10mA = 15mA = 20mA = 25mA IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA -4 -8 IMAGE REJECTION (dBc) IDLNA IDLNA IDLNA IDLNA IDLNA -4 -16 -20 -24 -28 -12 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-052 83.5 Figure 52. Image Rejection vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V 82.0 82.5 -24 -36 83.0 = 30mA = 35mA = 40mA = 45mA = 50mA -28 -32 82.5 IDLNA IDLNA IDLNA IDLNA IDLNA -20 -36 82.0 = 5mA = 10mA = 15mA = 20mA = 25mA -16 -32 81.5 IDLNA IDLNA IDLNA IDLNA IDLNA -40 81.0 81.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 55. Image Rejection vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V Rev. A | Page 14 of 55 13141-055 0 -40 81.0 82.0 0 LO LO LO LO LO LO LO -12 -40 81.0 81.5 RF FREQUENCY (GHz) 0 -4 IMAGE REJECTION (dBc) -16 -36 -40 81.0 IMAGE REJECTION (dBc) -12 -32 13141-050 IMAGE REJECTION (dBc) -12 TA = +85C TA = +25C TA = -55C -8 13141-053 TA = +85C TA = +25C TA = -55C -8 Data Sheet HMC7587 10 10 8 TA = +85C TA = +25C TA = -55C 6 4 IP3 (dBm) 2 0 -2 -2 -6 -6 -8 -8 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) -10 81.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 10 6 4 2 8 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 4 0 -2 2 0 -4 -6 -6 -8 -8 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) -10 81.0 13141-057 82.0 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm -2 -4 81.5 LO LO LO LO LO LO LO 6 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 57. Input IP3 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 1000 MHz, VDLNA = 4 V 13141-060 LO LO LO LO LO LO LO IP3 (dBm) 8 Figure 60. Input IP3 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 1000 MHz, VDLNA = 3 V 10 IDLNA IDLNA IDLNA IDLNA IDLNA 8 6 4 = 5mA = 10mA = 15mA = 20mA = 25mA IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA 8 6 4 IP3 (dBm) 2 0 -2 -8 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-058 -6 -8 83.0 Figure 58. Input IP3 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V 82.0 82.5 = 30mA = 35mA = 40mA = 45mA = 50mA -2 -6 82.5 IDLNA IDLNA IDLNA IDLNA IDLNA 0 -4 82.0 = 5mA = 10mA = 15mA = 20mA = 25mA 2 -4 81.5 IDLNA IDLNA IDLNA IDLNA IDLNA -10 81.0 81.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 61. Input IP3 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V Rev. A | Page 15 of 55 13141-061 10 -10 81.0 82.0 Figure 59. Input IP3 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V 10 -10 81.0 81.5 RF FREQUENCY (GHz) Figure 56. Input IP3 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V IP3 (dBm) 0 -4 -10 81.0 IP3 (dBm) 2 -4 13141-056 IP3 (dBm) 4 TA = +85C TA = +25C TA = -55C 6 13141-059 8 HMC7587 Data Sheet 50 50 TA = +85C TA = +25C TA = -55C 45 35 30 30 IP2 (dBm) 35 25 20 10 10 5 5 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 0 81.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 50 30 40 35 25 20 30 25 15 15 10 10 5 5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 0 81.0 13141-063 81.5 45 45 40 40 35 35 30 30 IP2 (dBm) 50 25 20 5 81.5 82.0 82.5 83.0 83.5 84.0 IDLNA IDLNA IDLNA IDLNA IDLNA 84.5 = 30mA = 35mA = 40mA = 45mA = 50mA 85.0 85.5 86.0 RF FREQUENCY (GHz) 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 25 20 IDLNA IDLNA IDLNA IDLNA IDLNA 15 10 5 13141-064 10 = 5mA = 10mA = 15mA = 20mA = 25mA 82.0 Figure 66. Input IP2 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 1000 MHz, VDLNA = 3 V 50 IDLNA IDLNA IDLNA IDLNA IDLNA 81.5 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm RF FREQUENCY (GHz) Figure 63. Input IP2 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 1000 MHz, VDLNA = 4 V 15 LO LO LO LO LO LO LO 20 13141-066 35 45 Figure 64. Input IP2 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V 0 81.0 81.5 82.0 82.5 83.0 IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA 83.5 84.0 84.5 = 30mA = 35mA = 40mA = 45mA = 50mA 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 67. Input IP2 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V Rev. A | Page 16 of 55 13141-067 40 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm IP2 (dBm) LO LO LO LO LO LO LO 45 0 81.0 82.0 Figure 65. Input IP2 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V 50 0 81.0 81.5 RF FREQUENCY (GHz) Figure 62. Input IP2 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V IP2 (dBm) 20 15 RF FREQUENCY (GHz) IP2 (dBm) 25 15 0 81.0 TA = +85C TA = +25C TA = -55C 40 13141-062 IP2 (dBm) 40 13141-065 45 Data Sheet HMC7587 0 0 -2 -2 P1dB (dBm) -6 -8 -10 -6 -8 -10 -12 -12 -14 -14 -16 81.0 81.5 82.0 82.5 TA = +85C TA = +25C TA = -55C -4 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-068 P1dB (dBm) -4 Figure 68. Input P1dB vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V -16 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 69. Input P1dB vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V Rev. A | Page 17 of 55 13141-071 TA = +85C TA = +25C TA = -55C HMC7587 Data Sheet 16 16 14 14 12 12 CONVERSION GAIN (dB) 10 8 6 TA = +85C TA = +25C TA = -55C 4 83.0 83.5 84.0 84.5 85.0 85.5 86.0 0 81.0 14 14 12 12 CONVERSION GAIN (dB) 16 8 LO LO LO LO LO LO LO 6 4 2 81.5 82.0 82.5 83.0 83.5 84.0 84.5 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 85.0 85.5 86.0 RF FREQUENCY (GHz) 12 IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA -8 85.5 86.0 RF FREQUENCY (GHz) 13141-076 85.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 72. Conversion Gain vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V IDLNA IDLNA IDLNA IDLNA IDLNA IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA = 30mA = 35mA = 40mA = 45mA = 50mA 0 -4 -8 -16 84.5 82.0 4 -12 84.0 81.5 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 8 -16 83.5 85.5 86.0 RF FREQUENCY (GHz) -12 83.0 85.0 LO LO LO LO LO LO LO 4 12 -4 82.5 84.5 6 16 0 82.0 84.0 8 20 = 30mA = 35mA = 40mA = 45mA = 50mA 4 81.5 83.5 Figure 74. Conversion Gain vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 2000 MHz, VDLNA = 3 V 8 -20 81.0 83.0 10 0 81.0 CONVERSION GAIN (dB) 16 IDLNA IDLNA IDLNA IDLNA IDLNA 82.5 2 Figure 71. Conversion Gain vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 2000 MHz, VDLNA = 4 V 20 82.0 Figure 73. Conversion Gain vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V 16 10 81.5 RF FREQUENCY (GHz) 13141-075 CONVERSION GAIN (dB) 4 13141-077 82.5 Figure 70. Conversion Gain vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V 0 81.0 TA = +85C TA = +25C TA = -55C 6 13141-078 82.0 13141-074 81.5 RF FREQUENCY (GHz) CONVERSION GAIN (dB) 8 2 2 0 81.0 10 -20 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 75. Conversion Gain vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V Rev. A | Page 18 of 55 13141-079 CONVERSION GAIN (dB) UPPER SIDEBAND SELECTED, IF = 2000 MHz Data Sheet HMC7587 0 0 -4 TA = +85C TA = +25C TA = -55C IMAGE REJECTION (dBc) -12 -16 -20 -24 -28 -20 -24 -28 -32 -36 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 76. Image Rejection vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V -40 81.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 79. Image Rejection vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V -8 -20 -24 -28 -12 -16 -24 -28 -32 -36 -36 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) -40 81.0 13141-081 82.0 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm -20 -32 81.5 LO LO LO LO LO LO LO -4 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 77. Image Rejection vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 2000 MHz, VDLNA = 4 V 13141-084 -16 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm IMAGE REJECTION (dBc) -8 Figure 80. Image Rejection vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 2000 MHz, VDLNA = 3 V 0 -4 -8 -12 = 5mA = 10mA = 15mA = 20mA = 25mA IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA -4 -8 IMAGE REJECTION (dBc) IDLNA IDLNA IDLNA IDLNA IDLNA -16 -20 -24 -28 -12 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-082 83.5 Figure 78. Image Rejection vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V 82.0 82.5 -28 -32 83.0 = 30mA = 35mA = 40mA = 45mA = 50mA -24 -36 82.5 IDLNA IDLNA IDLNA IDLNA IDLNA -20 -36 82.0 = 5mA = 10mA = 15mA = 20mA = 25mA -16 -32 81.5 IDLNA IDLNA IDLNA IDLNA IDLNA -40 81.0 81.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 81. Image Rejection vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V Rev. A | Page 19 of 55 13141-085 0 -40 81.0 82.0 0 LO LO LO LO LO LO LO -12 -40 81.0 81.5 RF FREQUENCY (GHz) 0 -4 IMAGE REJECTION (dBc) -16 -36 RF FREQUENCY (GHz) IMAGE REJECTION (dBc) -12 -32 -40 81.0 TA = +85C TA = +25C TA = -55C -8 13141-080 IMAGE REJECTION (dBc) -8 13141-083 -4 HMC7587 Data Sheet 10 10 8 TA = +85C TA = +25C TA = -55C 6 4 IP3 (dBm) 2 0 -2 -2 -6 -6 -8 -8 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) -10 81.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 10 LO LO LO LO LO LO LO 6 4 2 8 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm LO LO LO LO LO LO LO 6 4 IP3 (dBm) 8 0 -2 2 -2 -4 -4 -6 -8 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 0 -6 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 13141-087 81.5 -10 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 83. Input IP3 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 2000 MHz, VDLNA = 4 V 13141-090 -8 RF FREQUENCY (GHz) Figure 86. Input IP3 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 2000 MHz, VDLNA = 3 V 10 10 6 4 = 5mA = 10mA = 15mA = 20mA = 25mA IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA 8 6 4 IP3 (dBm) 2 0 -2 -8 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-088 -6 -8 83.0 Figure 84. Input IP3 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V 82.0 82.5 = 30mA = 35mA = 40mA = 45mA = 50mA 0 -6 82.5 IDLNA IDLNA IDLNA IDLNA IDLNA -2 -4 82.0 = 5mA = 10mA = 15mA = 20mA = 25mA 2 -4 81.5 IDLNA IDLNA IDLNA IDLNA IDLNA -10 81.0 81.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 87. Input IP3 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V Rev. A | Page 20 of 55 13141-091 IDLNA IDLNA IDLNA IDLNA IDLNA 8 -10 81.0 82.0 Figure 85. Input IP3 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V 10 -10 81.0 81.5 RF FREQUENCY (GHz) Figure 82. Input IP3 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V IP3 (dBm) 0 -4 -10 81.0 IP3 (dBm) 2 -4 13141-086 IP3 (dBm) 4 TA = +85C TA = +25C TA = -55C 6 13141-089 8 HMC7587 50 45 45 40 40 35 35 30 30 25 TA = +85C TA = +25C TA = -55C 20 15 10 5 5 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 0 81.0 45 40 40 35 35 30 30 IP2 (dBm) 50 45 25 15 10 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm LO LO LO LO LO LO LO 20 10 83.0 83.5 84.0 84.5 85.0 85.5 86.0 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 0 81.0 45 40 40 35 35 30 30 IP2 (dBm) 50 45 25 20 5 81.5 82.0 82.5 83.0 IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA 83.5 84.0 84.5 = 30mA = 35mA = 40mA = 45mA = 50mA 85.0 85.5 86.0 RF FREQUENCY (GHz) 83.0 83.5 84.0 84.5 85.0 85.5 86.0 25 20 IDLNA IDLNA IDLNA IDLNA IDLNA 15 10 5 13141-094 IDLNA IDLNA IDLNA IDLNA IDLNA 82.5 Figure 92. Input IP2 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 2000 MHz, VDLNA = 3 V 50 10 82.0 RF FREQUENCY (GHz) Figure 89. Input IP2 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 2000 MHz, VDLNA = 4 V 15 81.5 Figure 90. Input IP2 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V 0 81.0 81.5 82.0 82.5 83.0 IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA 83.5 84.0 84.5 = 30mA = 35mA = 40mA = 45mA = 50mA 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 93. Input IP2 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V Rev. A | Page 21 of 55 13141-097 82.0 13141-093 81.5 13141-096 5 RF FREQUENCY (GHz) 0 81.0 82.5 25 15 5 0 81.0 82.0 Figure 91. Input IP2 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V 50 LO LO LO LO LO LO LO 81.5 RF FREQUENCY (GHz) Figure 88. Input IP2 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V 20 TA = +85C TA = +25C TA = -55C 15 RF FREQUENCY (GHz) IP2 (dBm) 20 10 0 81.0 IP2 (dBm) 25 13141-095 IP2 (dBm) 50 13141-092 IP2 (dBm) Data Sheet HMC7587 Data Sheet 0 0 -2 TA = +85C TA = +25C TA = -55C P1dB (dBm) -6 -8 -10 -6 -8 -10 -12 -12 -14 -14 -16 81.0 81.5 82.0 82.5 TA = +85C TA = +25C TA = -55C -4 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-098 P1dB (dBm) -4 Figure 94. Input P1dB vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V -16 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 95. Input P1dB vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V Rev. A | Page 22 of 55 13141-101 -2 Data Sheet HMC7587 NOISE FIGURE PERFORMANCE WITH UPPER SIDEBAND SELECTED 10 10 TA = +85C TA = +25C TA = -55C 8 NOISE FIGURE (dB) 7 6 5 4 3 3 1 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 0 81.0 83.0 83.5 84.0 84.5 85.0 85.5 86.0 9 7 7 6 5 4 3 6 5 4 2 2 1 1 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 0 81.0 13141-105 81.5 LO LO LO LO LO LO LO 3 81.5 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 97. Noise Figure vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V 13141-108 NOISE FIGURE (dB) 8 Figure 100. Noise Figure vs. RF Frequency at Various LO Powers, IF = 1000 MHz, VDLNA = 3 V 10 10 TA = +85C TA = +25C TA = -55C 9 8 7 7 6 5 4 3 6 5 4 2 1 1 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-106 2 81.5 Figure 98. Noise Figure vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V LO LO LO LO LO LO LO 3 0 81.0 81.5 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 101. Noise Figure vs. RF Frequency at Various LO Powers, IF = 2000 MHz, VDLNA = 3 V Rev. A | Page 23 of 55 13141-109 NOISE FIGURE (dB) 8 0 81.0 82.5 10 TA = +85C TA = +25C TA = -55C 8 9 82.0 Figure 99. Noise Figure vs. RF Frequency at Various LO Powers, IF = 500 MHz, VDLNA = 3 V 10 0 81.0 81.5 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm RF FREQUENCY (GHz) Figure 96. Noise Figure vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V 9 LO LO LO LO LO LO LO 4 1 RF FREQUENCY (GHz) NOISE FIGURE (dB) 6 5 2 0 81.0 NOISE FIGURE (dB) 7 2 13141-104 NOISE FIGURE (dB) 8 9 13141-107 9 HMC7587 Data Sheet AMPLITUDE BALANCE PERFORMANCE WITH UPPER SIDEBAND SELECTED 0 -0.5 -1.0 -1.5 -1.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 -2.0 81.0 0.5 AMPLITUDE BALANCE (dB) 0.5 -1.0 TA = +85C TA = +25C TA = -55C -2.0 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 103. Amplitude Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V 83.5 84.0 84.5 85.0 85.5 86.0 0 -0.5 TA = +85C TA = +25C TA = -55C -1.0 -2.0 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 106. Amplitude Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V 1.0 1.0 TA = +85C TA = +25C TA = -55C TA = +85C TA = +25C TA = -55C 0.5 AMPLITUDE BALANCE (dB) 0.5 0 -0.5 -1.0 0 -0.5 -1.0 -1.5 -1.5 81.5 82.0 82.5 83.0 83.5 84.0 84.5 RF FREQUENCY (GHz) 85.0 85.5 86.0 -2.0 81.0 13141-112 -2.0 81.0 83.0 -1.5 13141-111 -1.5 82.5 Figure 105. Amplitude Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V 1.0 -0.5 82.0 RF FREQUENCY (GHz) 1.0 0 81.5 13141-113 82.0 Figure 102. Amplitude Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V AMPLITUDE BALANCE (dB) -0.5 13141-114 81.5 RF FREQUENCY (GHz) AMPLITUDE BALANCE (dB) 0 -1.5 13141-110 -2.0 81.0 TA = +85C TA = +25C TA = -55C 0.5 Figure 104. Amplitude Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V 81.5 82.0 82.5 83.0 83.5 84.0 84.5 RF FREQUENCY (GHz) 85.0 85.5 86.0 13141-115 AMPLITUDE BALANCE (dB) 0.5 1.0 TA = +85C TA = +25C TA = -55C AMPLITUDE BALANCE (dB) 1.0 Figure 107. Amplitude Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V Rev. A | Page 24 of 55 Data Sheet HMC7587 PHASE BALANCE PERFORMANCE WITH UPPER SIDEBAND SELECTED 10 10 8 TA = +85C TA = +25C TA = -55C 6 PHASE BALANCE (Degrees) 4 2 0 -2 -4 -6 -4 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 111. Phase Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V 10 8 8 PHASE BALANCE (Degrees) TA = +85C TA = +25C TA = -55C 6 4 2 0 -2 -4 -6 TA = +85C TA = +25C TA = -55C 6 4 2 0 -2 -4 -6 -8 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 -10 81.0 13141-117 81.5 Figure 109. Phase Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-120 -8 RF FREQUENCY (GHz) Figure 112. Phase Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V 10 10 8 8 PHASE BALANCE (Degrees) TA = +85C TA = +25C TA = -55C 6 4 2 0 -2 -4 4 2 0 -2 -4 -6 -8 -8 82.0 82.5 83.0 83.5 84.0 84.5 RF FREQUENCY (GHz) 85.0 85.5 86.0 -10 81.0 13141-118 81.5 Figure 110. Phase Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V TA = +85C TA = +25C TA = -55C 6 -6 -10 81.0 81.5 13141-119 82.0 10 PHASE BALANCE (Degrees) -2 -10 81.0 13141-116 81.5 Figure 108. Phase Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V PHASE BALANCE (Degrees) 2 0 -8 RF FREQUENCY (GHz) -10 81.0 6 4 -6 -8 -10 81.0 TA = +85C TA = +25C TA = -55C 81.5 82.0 82.5 83.0 83.5 84.0 84.5 RF FREQUENCY (GHz) 85.0 85.5 86.0 13141-121 PHASE BALANCE (Degrees) 8 Figure 113. Phase Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V Rev. A | Page 25 of 55 HMC7587 Data Sheet 16 14 14 12 12 8 6 TA = +85C TA = +25C TA = -55C 2 0 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 114. Conversion Gain vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V 4 0 81.0 14 14 12 12 CONVERSION GAIN (dB) 16 10 8 6 4 2 0 81.0 81.5 82.0 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 115. Conversion Gain vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 500 MHz, VDLNA = 4 V 12 IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA IDLNA IDLNA IDLNA IDLNA IDLNA LO LO LO LO LO LO LO 6 4 -8 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 0 -4 85.5 86.0 RF FREQUENCY (GHz) Figure 116. Conversion Gain vs. RF Frequency at Various IDLNA RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V -20 81.0 13141-124 85.0 IDLNA IDLNA IDLNA IDLNA IDLNA -8 -16 84.5 81.5 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 4 -16 84.0 85.5 86.0 8 -12 83.5 85.0 12 -12 83.0 84.5 16 0 82.5 84.0 20 -4 82.0 83.5 RF FREQUENCY (GHz) = 30mA = 35mA = 40mA = 45mA = 50mA 4 81.5 83.0 Figure 118. Conversion Gain vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 500 MHz, VDLNA = 3 V 8 -20 81.0 82.5 8 0 81.0 CONVERSION GAIN (dB) 16 82.0 10 2 RF FREQUENCY (GHz) 20 81.5 Figure 117. Conversion Gain vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V 16 LO LO LO LO LO LO LO TA = +85C TA = +25C TA = -55C RF FREQUENCY (GHz) 13141-123 CONVERSION GAIN (dB) 6 2 RF FREQUENCY (GHz) CONVERSION GAIN (dB) 8 81.5 82.0 82.5 83.0 = 5mA = 10mA = 15mA = 20mA = 25mA 83.5 84.0 IDLNA IDLNA IDLNA IDLNA IDLNA 84.5 RF FREQUENCY (GHz) 85.0 = 30mA = 35mA = 40mA = 45mA = 50mA 85.5 86.0 13141-127 4 10 13141-126 10 13141-125 CONVERSION GAIN (dB) 16 13141-122 CONVERSION GAIN (dB) LOWER SIDEBAND SELECTED, IF = 500 MHz Figure 119. Conversion Gain vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V Rev. A | Page 26 of 55 Data Sheet HMC7587 0 0 -4 TA = +85C TA = +25C TA = -55C IMAGE REJECTION (dBc) -12 -16 -20 -24 -28 -20 -24 -28 -36 -36 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 120. Image Rejection vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V -40 81.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 123. Image Rejection vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V -9 -20 -24 -28 -13 -17 -25 -29 -33 -37 -36 -41 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) -45 81.0 13141-129 82.0 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm -21 -32 81.5 LO LO LO LO LO LO LO -5 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 121. Image Rejection vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 500 MHz, VDLNA = 4 V 13141-132 -16 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm IMAGE REJECTION (dBc) -12 Figure 124. Image Rejection vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 500 MHz, VDLNA = 3 V 0 -8 -12 = 5mA = 10mA = 15mA = 20mA = 25mA IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA -4 -8 IMAGE REJECTION (dBc) IDLNA IDLNA IDLNA IDLNA IDLNA -16 -20 -24 -28 -12 84.0 84.5 RF FREQUENCY (GHz) 85.0 85.5 86.0 -40 81.0 13141-130 83.5 Figure 122. Image Rejection vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V 82.0 82.5 -28 -36 83.0 = 30mA = 35mA = 40mA = 45mA = 50mA -24 -32 82.5 IDLNA IDLNA IDLNA IDLNA IDLNA -20 -36 82.0 = 5mA = 10mA = 15mA = 20mA = 25mA -16 -32 81.5 IDLNA IDLNA IDLNA IDLNA IDLNA 81.5 83.0 83.5 84.0 84.5 RF FREQUENCY (GHz) 85.0 85.5 86.0 13141-133 0 -4 -40 81.0 82.0 -1 LO LO LO LO LO LO LO -8 -40 81.0 81.5 RF FREQUENCY (GHz) 0 -4 IMAGE REJECTION (dBc) -16 -32 RF FREQUENCY (GHz) IMAGE REJECTION (dBc) -12 -32 -40 81.0 TA = +85C TA = +25C TA = -55C -8 13141-128 IMAGE REJECTION (dBc) -8 13141-131 -4 Figure 125. Image Rejection vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V Rev. A | Page 27 of 55 HMC7587 Data Sheet 10 10 8 TA = +85C TA = +25C TA = -55C 6 4 IP3 (dBm) 2 0 -2 -2 -6 -6 -8 -8 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) -10 81.0 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 129. Input IP3 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V 10 10 LO LO LO LO LO LO LO 6 4 2 8 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm LO LO LO LO LO LO LO 6 4 IP3 (dBm) 8 0 -2 2 0 -4 -6 -6 -8 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-135 81.5 -10 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 127. Input IP3 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 500 MHz, VDLNA = 4 V Figure 130. Input IP3 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 500 MHz, VDLNA = 3 V 10 10 IDLNA IDLNA IDLNA IDLNA IDLNA 8 6 4 = 5mA = 10mA = 15mA = 20mA = 25mA IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA 8 6 4 IP3 (dBm) 2 0 -2 82.0 82.5 IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA 0 -2 -4 -6 -6 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 128. Input IP3 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V -10 81.0 81.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 131. Input IP3 vs. RF Frequency at Various IDLNA RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V Rev. A | Page 28 of 55 13141-139 -8 13141-136 -8 = 5mA = 10mA = 15mA = 20mA = 25mA 2 -4 -10 81.0 IDLNA IDLNA IDLNA IDLNA IDLNA 13141-138 -8 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm -2 -4 -10 81.0 81.5 RF FREQUENCY (GHz) Figure 126. Input IP3 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V IP3 (dBm) 0 -4 -10 81.0 IP3 (dBm) 2 -4 13141-134 IP3 (dBm) 4 TA = +85C TA = +25C TA = -55C 6 13141-137 8 Data Sheet HMC7587 50 50 45 TA = +85C TA = +25C TA = -55C 40 35 IP2 (dBm) 30 25 20 20 10 10 5 5 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 0 81.0 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 135. Input IP2 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V 50 40 35 30 40 35 25 20 30 20 15 10 10 5 5 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 0 81.0 13141-141 82.0 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 25 15 81.5 LO LO LO LO LO LO LO 45 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 136. Input IP2 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 500 MHz, VDLNA = 3 V 50 50 45 45 40 40 35 35 30 30 IP2 (dBm) Figure 133. Input IP2 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 500 MHz, VDLNA = 4 V 25 20 15 10 5 0 81.0 81.5 82.0 82.5 83.0 IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA 83.5 84.0 84.5 = 30mA = 35mA = 40mA = 45mA = 50mA 85.0 85.5 86.0 RF FREQUENCY (GHz) 25 20 IDLNA IDLNA IDLNA IDLNA IDLNA 15 10 5 13141-142 IDLNA IDLNA IDLNA IDLNA IDLNA Figure 134. Input IP2 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V 0 81.0 81.5 82.0 82.5 83.0 IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA 83.5 84.0 84.5 = 30mA = 35mA = 40mA = 45mA = 50mA 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 137. Input IP2 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V Rev. A | Page 29 of 55 13141-144 45 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm IP2 (dBm) LO LO LO LO LO LO LO 13141-145 50 0 81.0 81.5 RF FREQUENCY (GHz) Figure 132. Input IP2 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V IP2 (dBm) 25 15 0 81.0 IP2 (dBm) 30 15 13141-140 IP2 (dBm) 35 TA = +85C TA = +25C TA = -55C 40 13141-143 45 HMC7587 Data Sheet 0 0 -2 TA = +85C TA = +25C TA = -55C P1dB (dBm) -6 -8 -10 -6 -8 -10 -12 -12 -14 -14 -16 81.0 81.5 82.0 82.5 TA = +85C TA = +25C TA = -55C -4 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-146 P1dB (dBm) -4 Figure 138. Input P1dB vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V -16 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 139. Input P1dB vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V Rev. A | Page 30 of 55 13141-149 -2 Data Sheet HMC7587 LOWER SIDEBAND SELECTED, IF = 1000 MHz 16 16 14 TA = +85C TA = +25C TA = -55C 12 CONVERSION GAIN (dB) 10 8 6 4 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 140. Conversion Gain vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V 14 12 12 CONVERSION GAIN (dB) 14 8 LO LO LO LO LO LO LO 6 4 2 81.5 82.0 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 141. Conversion Gain vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 1000 MHz, VDLNA = 4 V 16 12 IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA IDLNA IDLNA IDLNA IDLNA IDLNA 4 -8 85.5 86.0 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 142. Conversion Gain vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V = 5mA = 10mA = 15mA = 20mA = 25mA IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA 0 -8 -20 81.0 13141-154 RF FREQUENCY (GHz) 85.0 85.5 86.0 -4 -16 84.5 85.0 4 -16 84.0 84.5 8 -12 83.5 82.0 IDLNA IDLNA IDLNA IDLNA IDLNA 12 -12 83.0 81.5 16 0 82.5 LO LO LO LO LO LO LO 6 20 -4 82.0 84.0 RF FREQUENCY (GHz) = 30mA = 35mA = 40mA = 45mA = 50mA 4 81.5 83.5 Figure 144. Conversion Gain vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 1000 MHz, VDLNA = 3 V 8 -20 81.0 83.0 8 0 81.0 CONVERSION GAIN (dB) 20 82.5 10 2 RF FREQUENCY (GHz) 82.0 Figure 143. Conversion Gain vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V 16 10 81.5 RF FREQUENCY (GHz) 16 0 81.0 TA = +85C TA = +25C TA = -55C 4 0 81.0 13141-153 CONVERSION GAIN (dB) 6 13141-156 81.5 RF FREQUENCY (GHz) CONVERSION GAIN (dB) 8 2 13141-152 0 81.0 10 13141-155 2 12 81.5 82.0 82.5 83.0 83.5 84.0 84.5 RF FREQUENCY (GHz) 85.0 85.5 86.0 13141-157 CONVERSION GAIN (dB) 14 Figure 145. Conversion Gain vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V Rev. A | Page 31 of 55 HMC7587 Data Sheet 0 0 -4 TA = +85C TA = +25C TA = -55C IMAGE REJECTION (dBc) -12 -16 -20 -24 -28 -20 -24 -28 -32 -36 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 146. Image Rejection vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V -40 81.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 149. Image Rejection vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V -16 -8 -20 -24 -28 -12 -16 -24 -28 -32 -36 -36 82.5 83.0 83.5 84.0 84.5 85.0 -40 81.0 13141-159 82.0 85.5 86.0 RF FREQUENCY (GHz) = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm -20 -32 81.5 LO LO LO LO LO LO LO -4 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 147. Image Rejection vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 1000 MHz, VDLNA = 4 V 13141-162 -12 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm IMAGE REJECTION (dBc) -8 Figure 150. Image Rejection vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 1000 MHz, VDLNA = 3 V 0 -8 -12 = 5mA = 10mA = 15mA = 20mA = 25mA IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA -4 -8 IMAGE REJECTION (dBc) IDLNA IDLNA IDLNA IDLNA IDLNA -16 -20 -24 -28 -12 84.0 84.5 85.0 -40 81.0 13141-160 83.5 85.5 86.0 RF FREQUENCY (GHz) Figure 148. Image Rejection vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V 82.0 82.5 -28 -36 83.0 = 30mA = 35mA = 40mA = 45mA = 50mA -24 -36 82.5 IDLNA IDLNA IDLNA IDLNA IDLNA -20 -32 82.0 = 5mA = 10mA = 15mA = 20mA = 25mA -16 -32 81.5 IDLNA IDLNA IDLNA IDLNA IDLNA 81.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 151. Image Rejection vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V Rev. A | Page 32 of 55 13141-163 0 -4 -40 81.0 82.0 0 LO LO LO LO LO LO LO -4 -40 81.0 81.5 RF FREQUENCY (GHz) 0 IMAGE REJECTION (dBc) -16 -36 RF FREQUENCY (GHz) IMAGE REJECTION (dBc) -12 -32 -40 81.0 TA = +85C TA = +25C TA = -55C -8 13141-158 IMAGE REJECTION (dBc) -8 13141-161 -4 Data Sheet HMC7587 10 10 8 TA = +85C TA = +25C TA = -55C 6 4 IP3 (dBm) 2 0 -2 -2 -6 -6 -8 -8 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) -10 81.0 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 155. Input IP3 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V 10 10 LO LO LO LO LO LO LO 6 4 2 8 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm LO LO LO LO LO LO LO 6 4 IP3 (dBm) 8 0 -2 2 0 -4 -6 -6 -8 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-165 81.5 -10 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 153. Input IP3 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 1000 MHz, VDLNA = 4 V Figure 156. Input IP3 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 1000 MHz, VDLNA = 3 V 10 10 IDLNA IDLNA IDLNA IDLNA IDLNA 8 6 4 = 5mA = 10mA = 15mA = 20mA = 25mA IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA 8 6 4 IP3 (dBm) 2 0 -2 82.0 82.5 IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA 0 -2 -4 -6 -6 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 154. Input IP3 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V -10 81.0 81.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 157. Input IP3 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V Rev. A | Page 33 of 55 13141-169 -8 13141-166 -8 = 5mA = 10mA = 15mA = 20mA = 25mA 2 -4 -10 81.0 IDLNA IDLNA IDLNA IDLNA IDLNA 13141-168 -8 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm -2 -4 -10 81.0 81.5 RF FREQUENCY (GHz) Figure 152. Input IP3 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V IP3 (dBm) 0 -4 -10 81.0 IP3 (dBm) 2 -4 13141-164 IP3 (dBm) 4 TA = +85C TA = +25C TA = -55C 6 13141-167 8 HMC7587 Data Sheet 50 TA = +85C TA = +25C TA = -55C 40 35 30 30 IP2 (dBm) 35 25 20 15 10 5 5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 0 81.0 45 45 40 40 35 35 30 30 IP2 (dBm) 50 25 10 5 0 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 85.0 85.5 86.0 RF FREQUENCY (GHz) 83.0 83.5 84.0 84.5 85.0 85.5 86.0 25 LO LO LO LO LO LO LO 20 15 10 5 0 81.0 13141-171 15 82.5 Figure 161. Input IP2 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V 50 LO LO LO LO LO LO LO 82.0 RF FREQUENCY (GHz) Figure 158. Input IP2 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V 20 81.5 81.5 82.0 82.5 83.0 83.5 84.0 84.5 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 162. Input IP2 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 1000 MHz, VDLNA = 3 V 50 50 45 45 40 40 35 35 30 30 IP2 (dBm) Figure 159. Input IP2 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 1000 MHz, VDLNA = 4 V 25 20 10 5 0 81.0 81.5 82.0 82.5 83.0 IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA 83.5 84.0 84.5 = 30mA = 35mA = 40mA = 45mA = 50mA 85.0 85.5 86.0 RF FREQUENCY (GHz) 25 20 IDLNA IDLNA IDLNA IDLNA IDLNA 15 10 5 13141-172 IDLNA IDLNA IDLNA IDLNA IDLNA 15 Figure 160. Input IP2 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V 0 81.0 81.5 82.0 82.5 83.0 = 5mA = 10mA = 15mA = 20mA = 25mA 83.5 84.0 IDLNA IDLNA IDLNA IDLNA IDLNA 84.5 = 30mA = 35mA = 40mA = 45mA = 50mA 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 163. Input IP2 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V Rev. A | Page 34 of 55 13141-174 81.5 RF FREQUENCY (GHz) IP2 (dBm) 20 10 0 81.0 IP2 (dBm) 25 15 13141-170 IP2 (dBm) 40 TA = +85C TA = +25C TA = -55C 45 13141-175 45 13141-173 50 Data Sheet HMC7587 0 0 -2 -2 P1dB (dBm) -6 -8 -10 -6 -8 -10 -12 -12 -14 -14 -16 81.0 81.5 82.0 82.5 TA = +85C TA = +25C TA = -55C -4 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-176 P1dB (dBm) -4 Figure 164. Input P1dB vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V -16 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 165. Input P1dB vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V Rev. A | Page 35 of 55 13141-179 TA = +85C TA = +25C TA = -55C HMC7587 Data Sheet 16 14 14 12 12 8 6 4 TA = +85C TA = +25C TA = -55C 2 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 4 0 81.0 14 14 12 12 CONVERSION GAIN (dB) 16 10 8 6 4 2 0 81.0 81.5 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 82.0 82.5 83.0 81.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 167. Conversion Gain vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 2000 MHz, VDLNA = 4 V LO LO LO LO LO LO LO 6 4 81.5 12 = 30mA = 35mA = 40mA = 45mA = 50mA 16 12 8 4 0 -4 -8 84.0 84.5 85.0 85.5 86.0 82.0 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 170. Conversion Gain vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 2000 MHz, VDLNA = 3 V CONVERSION GAIN (dB) 16 IDLNA IDLNA IDLNA IDLNA IDLNA 83.5 RF FREQUENCY (GHz) 20 = 5mA = 10mA = 15mA = 20mA = 25mA 83.0 8 0 81.0 20 IDLNA IDLNA IDLNA IDLNA IDLNA 82.5 10 2 83.5 82.0 Figure 169. Conversion Gain vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V 16 LO LO LO LO LO LO LO TA = +85C TA = +25C TA = -55C RF FREQUENCY (GHz) 13141-183 CONVERSION GAIN (dB) 6 2 Figure 166. Conversion Gain vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V CONVERSION GAIN (dB) 8 -12 IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA 82.0 82.5 IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA 8 4 0 -4 -8 -12 -16 -20 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 RF FREQUENCY (GHz) 85.0 85.5 86.0 13141-184 -16 -20 81.0 Figure 168. Conversion Gain vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V 81.5 83.0 83.5 84.0 84.5 RF FREQUENCY (GHz) 85.0 85.5 86.0 13141-187 0 81.0 10 13141-186 10 13141-185 CONVERSION GAIN (dB) 16 13141-182 CONVERSION GAIN (dB) LOWER SIDEBAND SELECTED, IF = 2000 MHz Figure 171. Conversion Gain vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V Rev. A | Page 36 of 55 Data Sheet HMC7587 0 0 -4 -4 IMAGE REJECTION (dBc) -16 -20 -24 -28 -20 -24 -28 -36 -36 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 172. Image Rejection vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V -40 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 175. Image Rejection vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V 0 0 -8 -12 -16 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm LO LO LO LO LO LO LO -4 -8 IMAGE REJECTION (dBc) LO LO LO LO LO LO LO -4 -20 -24 -28 -12 -16 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm -20 -24 -28 -36 -40 81.0 -40 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-189 -36 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 173. Image Rejection vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 2000 MHz, VDLNA = 4 V 13141-192 -32 -32 Figure 176. Image Rejection vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 2000 MHz, VDLNA = 3 V 0 0 -8 -12 = 5mA = 10mA = 15mA = 20mA = 25mA IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA -4 -8 IMAGE REJECTION (dBc) IDLNA IDLNA IDLNA IDLNA IDLNA -4 -16 -20 -24 -28 -12 IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA 82.0 82.5 IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA -16 -20 -24 -28 -32 -32 -36 -40 81.0 -40 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 RF FREQUENCY (GHz) 85.0 85.5 86.0 13141-190 -36 Figure 174. Image Rejection vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V 81.5 83.0 83.5 84.0 84.5 RF FREQUENCY (GHz) 85.0 85.5 86.0 13141-193 IMAGE REJECTION (dBc) -16 -32 -40 81.0 IMAGE REJECTION (dBc) -12 -32 13141-188 IMAGE REJECTION (dBc) -12 TA = +85C TA = +25C TA = -55C -8 13141-191 TA = +85C TA = +25C TA = -55C -8 Figure 177. Image Rejection vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V Rev. A | Page 37 of 55 HMC7587 Data Sheet 10 10 8 8 TA = +85C TA = +25C TA = -55C 6 4 2 IP3 (dBm) 0 -2 -4 -6 -6 -8 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-194 81.5 -10 81.0 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 178. Input IP3 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V Figure 181. Input IP3 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V 10 10 LO LO LO LO LO LO LO 6 4 2 8 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm LO LO LO LO LO LO LO 6 4 IP3 (dBm) 8 0 -2 2 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 0 -2 -4 -4 -6 -6 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-195 81.5 -10 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 179. Input IP3 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 2000 MHz, VDLNA = 4 V Figure 182. Input IP3 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 2000 MHz, VDLNA = 3 V 10 10 IDLNA IDLNA IDLNA IDLNA IDLNA 8 6 4 = 5mA = 10mA = 15mA = 20mA = 25mA IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA 8 6 4 IP3 (dBm) 2 0 -2 = 5mA = 10mA = 15mA = 20mA = 25mA 82.0 82.5 IDLNA IDLNA IDLNA IDLNA IDLNA = 30mA = 35mA = 40mA = 45mA = 50mA 2 0 -2 -4 -4 -6 -6 -8 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-196 -8 -10 81.0 IDLNA IDLNA IDLNA IDLNA IDLNA 13141-198 -8 -8 -10 81.0 81.5 13141-197 -8 IP3 (dBm) 0 -2 -4 -10 81.0 IP3 (dBm) 2 Figure 180. Input IP3 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V -10 81.0 81.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 183. Input IP3 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V Rev. A | Page 38 of 55 13141-199 IP3 (dBm) 4 TA = +85C TA = +25C TA = -55C 6 HMC7587 50 45 45 40 40 35 35 30 30 25 TA = +85C TA = +25C TA = -55C 20 15 15 10 5 5 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 0 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 184. Input IP2 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V Figure 187. Input IP2 vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V 50 50 30 40 35 25 20 30 25 20 15 15 10 10 5 0 81.0 0 81.0 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-201 5 81.5 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 185. Input IP2 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 2000 MHz, VDLNA = 4 V Figure 188. Input IP2 vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 2000 MHz, VDLNA = 3 V 50 50 45 45 40 35 35 30 30 IP2 (dBm) 40 25 20 10 5 0 81.0 81.5 82.0 82.5 83.0 IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA 83.5 84.0 84.5 = 30mA = 35mA = 40mA = 45mA = 50mA 85.0 85.5 86.0 RF FREQUENCY (GHz) 25 20 IDLNA IDLNA IDLNA IDLNA IDLNA 15 10 5 13141-202 IDLNA IDLNA IDLNA IDLNA IDLNA 15 Figure 186. Input IP2 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V 0 81.0 81.5 82.0 82.5 83.0 IDLNA IDLNA IDLNA IDLNA IDLNA = 5mA = 10mA = 15mA = 20mA = 25mA 83.5 84.0 84.5 = 30mA = 35mA = 40mA = 45mA = 50mA 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 189. Input IP2 vs. RF Frequency at Various IDLNA Values, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V Rev. A | Page 39 of 55 13141-204 35 LO LO LO LO LO LO LO 45 13141-205 40 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm IP2 (dBm) LO LO LO LO LO LO LO 45 IP2 (dBm) TA = +85C TA = +25C TA = -55C 20 10 0 81.0 IP2 (dBm) 25 13141-203 IP2 (dBm) 50 13141-200 IP2 (dBm) Data Sheet HMC7587 Data Sheet 0 0 -2 -2 P1dB (dBm) -6 -8 -10 -6 -8 -10 -12 -12 -14 -14 -16 81.0 81.5 82.0 82.5 TA = +85C TA = +25C TA = -55C -4 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-206 P1dB (dBm) -4 Figure 190. Input P1dB vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V -16 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 191. Input P1dB vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V Rev. A | Page 40 of 55 13141-209 TA = +85C TA = +25C TA = -55C Data Sheet HMC7587 NOISE FIGURE PERFORMANCE WITH LOWER SIDEBAND SELECTED 10 10 +85C +25C -55C 9 8 NOISE FIGURE (dB) 7 6 5 4 3 5 4 1 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 0 81.0 81.5 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 192. Noise Figure vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V Figure 195. Noise Figure vs. RF Frequency at Various LO Powers, IF = 500 MHz, VDLNA = 3 V 10 10 +85C +25C -55C 8 9 8 NOISE FIGURE (dB) 7 6 5 4 3 7 6 5 4 2 2 1 1 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 0 81.0 13141-213 81.5 LO LO LO LO LO LO LO 3 81.5 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 193. Noise Figure vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V 13141-216 9 Figure 196. Noise Figure vs. RF Frequency at Various LO Powers, RFIN = -20 dBm, IF = 500 MHz, VDLNA = 3 V 10 10 9 +85C +25C -55C 9 8 8 NOISE FIGURE (dB) 7 6 5 4 3 7 6 5 4 LO LO LO LO LO LO LO 3 2 2 1 0 81.0 0 81.0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-214 1 Figure 194. Noise Figure vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V 81.5 = -4dBm = -2dBm = 0dBm = +2dBm = +4dBm = +6dBm = +8dBm 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) Figure 197. Noise Figure vs. RF Frequency at Various LO Powers, IF = 2000 MHz, VDLNA = 3 V Rev. A | Page 41 of 55 13141-217 0 81.0 LO LO LO LO LO LO LO 3 2 RF FREQUENCY (GHz) NOISE FIGURE (dB) 6 1 0 81.0 NOISE FIGURE (dB) 7 2 13141-212 NOISE FIGURE (dB) 8 13141-215 9 HMC7587 Data Sheet 1.0 1.0 0.5 0.5 TA = +85C TA = +25C TA = -55C -1.0 -1.5 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) -2.0 81.0 0.5 0.5 AMPLITUDE BALANCE (dB) 1.0 0 -0.5 -1.0 TA = +85C TA = +25C TA = -55C -1.5 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 199. Amplitude Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V -2.0 81.0 81.5 82.0 82.5 AMPLITUDE BALANCE (dB) 83.0 83.5 84.0 84.5 RF FREQUENCY (GHz) 85.0 85.5 86.0 Figure 200. Amplitude Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V 84.5 85.0 85.5 86.0 TA = +85C TA = +25C TA = -55C 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 0 -0.5 -1.0 TA = +85C TA = +25C TA = -55C -1.5 -2.0 81.0 13141-220 -2.0 81.0 84.0 Figure 202. Amplitude Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V 0.5 TA = +85C TA = +25C TA = -55C 83.5 RF FREQUENCY (GHz) 0.5 -1.0 83.0 -1.0 1.0 -0.5 82.5 -0.5 1.0 0 82.0 0 -1.5 RF FREQUENCY (GHz) -1.5 81.5 Figure 201. Amplitude Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V 1.0 -2.0 81.0 TA = +85C TA = +25C TA = -55C RF FREQUENCY (GHz) 13141-219 AMPLITUDE BALANCE (dB) Figure 198. Amplitude Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V AMPLITUDE BALANCE (dB) -1.0 -1.5 13141-218 -2.0 81.0 -0.5 13141-222 -0.5 0 81.5 82.0 82.5 83.0 83.5 84.0 84.5 RF FREQUENCY (GHz) 85.0 85.5 86.0 13141-223 0 13141-221 AMPLITUDE BALANCE (dB) AMPLITUDE BALANCE (dB) AMPLITUDE BALANCE PERFORMANCE WITH LOWER SIDEBAND SELECTED Figure 203. Amplitude Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V Rev. A | Page 42 of 55 Data Sheet HMC7587 PHASE BALANCE PERFORMANCE WITH LOWER SIDEBAND SELECTED 10 8 PHASE BALANCE (Degrees) TA = +85C TA = +25C TA = -55C 6 4 2 0 -2 -4 0 -2 -4 -8 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 204. Phase Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V -10 81.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 Figure 207. Phase Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V 8 PHASE BALANCE (Degrees) TA = +85C TA = +25C TA = -55C 6 4 2 0 -2 -4 -6 TA = +85C TA = +25C TA = -55C 6 4 2 0 -2 -4 -6 -8 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 13141-225 81.5 -10 81.0 Figure 205. Phase Balance vs. RF Frequency at Various Temperatures RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V 81.5 82.0 82.5 83.0 83.5 84.0 84.5 85.0 85.5 86.0 RF FREQUENCY (GHz) 13141-228 -8 RF FREQUENCY (GHz) Figure 208. Phase Balance vs. RF Frequency at Various Temperatures RFIN = -20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V 10 10 8 8 PHASE BALANCE (Degrees) TA = +85C TA = +25C TA = -55C 6 4 2 0 -2 -4 TA = +85C TA = +25C TA = -55C 6 4 2 0 -2 -4 -6 -6 82.0 82.5 83.0 83.5 84.0 84.5 RF FREQUENCY (GHz) 85.0 85.5 86.0 13141-226 81.5 -10 81.0 Figure 206. Phase Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 4 V 81.5 82.0 82.5 83.0 83.5 84.0 84.5 RF FREQUENCY (GHz) 85.0 85.5 86.0 13141-229 -8 -8 -10 81.0 82.0 10 8 -10 81.0 81.5 RF FREQUENCY (GHz) 10 PHASE BALANCE (Degrees) 2 -6 RF FREQUENCY (GHz) PHASE BALANCE (Degrees) 4 -8 -10 81.0 TA = +85C TA = +25C TA = -55C 6 -6 13141-224 PHASE BALANCE (Degrees) 8 13141-227 10 Figure 209. Phase Balance vs. RF Frequency at Various Temperatures, RFIN = -20 dBm, LO = 2 dBm, IF = 2000 MHz, VDLNA = 3 V Rev. A | Page 43 of 55 HMC7587 Data Sheet M x N Spurious Outputs, VDLNA = 3 V SPURIOUS PERFORMANCE WITH UPPER SIDEBAND SELECTED, IF = 500 MHz RF = 81 GHz at RFIN = -10 dBm, LO frequency = 13.416 GHz at LOIN = 2 dBm. TA = 25C, VGMIX = -1 V, VDAMPx = 4 V, VDMULT = 1.5 V, LOIN = 2 dBm. Mixer spurious products are measured in dBc from the IF output power level. Spur values are (M x RF) - (N x LO). N/A means not applicable. M x N Spurious Outputs, VDLNA = 4 V M x RF RF = 81 GHz at RFIN = -10 dBm, LO frequency = 13.416 GHz at LOIN = 2 dBm. M x RF 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 29.2 N/A N/A N/A N x LO 3 N/A N/A N/A 39 N/A N/A 4 N/A N/A N/A N/A 57 N/A 5 N/A N/A N/A N/A N/A 59.7 6 N/A N/A N/A N/A N/A N/A M x RF M x RF 0 1 2 3 4 5 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 25 N/A N/A N/A N x LO 3 N/A N/A N/A 36.6 N/A N/A 4 N/A N/A N/A N/A 49.3 N/A 5 N/A N/A N/A N/A N/A 53.9 6 N/A N/A N/A N/A N/A N/A M x RF M x RF 0 1 2 3 4 5 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 29.6 N/A N/A N/A N x LO 3 N/A N/A N/A 43.1 N/A N/A 4 N/A N/A N/A N/A 61.2 N/A 5 N/A N/A N/A N/A N/A 63.5 2 N/A N/A 30.3 N/A N/A N/A N x LO 3 N/A N/A N/A 41.5 N/A N/A 4 N/A N/A N/A N/A 59.4 N/A 5 N/A N/A N/A N/A N/A 64 6 N/A N/A N/A N/A N/A N/A 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 26 N/A N/A N/A N x LO 3 N/A N/A N/A 38.7 N/A N/A 4 N/A N/A N/A N/A 52.1 N/A 5 N/A N/A N/A N/A N/A 57.2 6 N/A N/A N/A N/A N/A N/A RF = 86 GHz at RFIN = -10 dBm, LO frequency = 14.25 GHz at LOIN = 2 dBm. RF = 86 GHz at RFIN = -10 dBm, LO frequency = 14.25 GHz at LOIN = 2 dBm. 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A RF = 83 GHz at RFIN = -10 dBm, LO frequency = 13.75 MHz at LOIN = 2 dBm. RF = 83 GHz at RFIN = -10 dBm, LO frequency = 13.75 GHz at LOIN = 2 dBm. 0 N/A N/A N/A N/A N/A N/A 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 6 N/A N/A N/A N/A N/A N/A Rev. A | Page 44 of 55 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 30.1 N/A N/A N/A N x LO 3 N/A N/A N/A 45.4 N/A N/A 4 N/A N/A N/A N/A 62.9 N/A 5 N/A N/A N/A N/A N/A 67.3 6 N/A N/A N/A N/A N/A N/A Data Sheet HMC7587 M x N Spurious Outputs, VDLNA = 3 V SPURIOUS PERFORMANCE WITH UPPER SIDEBAND SELECTED, IF = 1000 MHz TA = 25C, VGMIX = -1 V, VDAMPx = 4 V, VDMULT = 1.5 V, LOIN = 2 dBm. RF = 81 GHz at RFIN = -10 dBm, LO frequency = 13.333 GHz at LOIN = 2 dBm. Mixer spurious products are measured in dBc from the IF output power level. Spur values are (M x RF) - (N x LO). N/A means not applicable. M x N Spurious Outputs, VDLNA = 4 V M x RF RF = 81 GHz at RFIN = -10 dBm, LO frequency = 13.333 GHz at LOIN = 2 dBm. M x RF 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 28.4 N/A N/A N/A N x LO 3 N/A N/A N/A 38.9 N/A N/A 4 N/A N/A N/A N/A 56.5 N/A 5 N/A N/A N/A N/A N/A 59.3 6 N/A N/A N/A N/A N/A N/A M x RF M x RF 0 1 2 3 4 5 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 26.5 N/A N/A N/A N x LO 3 N/A N/A N/A 37.1 N/A N/A 4 N/A N/A N/A N/A 52.8 N/A 5 N/A N/A N/A N/A N/A 56.7 6 N/A N/A N/A N/A N/A N/A M x RF M x RF 0 1 2 3 4 5 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 27.9 N/A N/A N/A N x LO 3 N/A N/A N/A 42 N/A N/A 4 N/A N/A N/A N/A 60.2 N/A 5 N/A N/A N/A N/A N/A 62.7 2 N/A N/A 29.7 N/A N/A N/A N x LO 3 N/A N/A N/A 41.7 N/A N/A 4 N/A N/A N/A N/A 58.7 N/A 5 N/A N/A N/A N/A N/A 63.4 6 N/A N/A N/A N/A N/A N/A 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 27.5 N/A N/A N/A N x LO 3 N/A N/A N/A 39.3 N/A N/A 4 N/A N/A N/A N/A 55.1 N/A 5 N/A N/A N/A N/A N/A 60.4 6 N/A N/A N/A N/A N/A N/A RF = 86 GHz at RFIN = -10 dBm, LO frequency = 14.166 GHz at LOIN = 2 dBm. RF = 86 GHz at RFIN = -10 dBm, LO frequency = 14.166 GHz at LOIN = 2 dBm. 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A RF = 83 GHz at RFIN = -10 dBm, LO frequency = 13.666 MHz at LOIN = 2 dBm. RF = 83 GHz at RFIN = -10 dBm, LO frequency = 13.666 MHz at LOIN = 2 dBm. 0 N/A N/A N/A N/A N/A N/A 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 6 N/A N/A N/A N/A N/A N/A Rev. A | Page 45 of 55 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 28.8 N/A N/A N/A N x LO 3 N/A N/A N/A 44.2 N/A N/A 4 N/A N/A N/A N/A 62.1 N/A 5 N/A N/A N/A N/A N/A 66.6 6 N/A N/A N/A N/A N/A N/A HMC7587 Data Sheet M x N Spurious Outputs, VDLNA = 3 V SPURIOUS PERFORMANCE WITH UPPER SIDEBAND SELECTED, IF = 2000 MHz TA = 25C, VGMIX = -1 V, VDAMPx = 4 V, VDMULT = 1.5 V, LOIN = 2 dBm. RF = 81 GHz at RFIN = -10 dBm, LO frequency = 13.166 GHz at LOIN = 2 dBm. Mixer spurious products are measured in dBc from the IF output power level. Spur values are (M x RF) - (N x LO). N/A means not applicable. M x N Spurious Outputs, VDLNA = 4 V M x RF RF = 81 GHz at RFIN = -10 dBm, LO frequency = 13.166 GHz at LOIN = 2 dBm. M x RF 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 28.1 N/A N/A N/A N x LO 3 N/A N/A N/A 42 N/A N/A 4 N/A N/A N/A N/A 56.3 N/A 5 N/A N/A N/A N/A N/A 61.1 6 N/A N/A N/A N/A N/A N/A M x RF M x RF 0 1 2 3 4 5 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 27.8 N/A N/A N/A N x LO 3 N/A N/A N/A 38.5 N/A N/A 4 N/A N/A N/A N/A 55.6 N/A 5 N/A N/A N/A N/A N/A 60.8 6 N/A N/A N/A N/A N/A N/A M x RF M x RF 0 1 2 3 4 5 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 25.1 N/A N/A N/A N x LO 3 N/A N/A N/A 38.5 N/A N/A 4 N/A N/A N/A N/A 52.9 N/A 5 N/A N/A N/A N/A N/A 52.3 2 N/A N/A 29.6 N/A N/A N/A N x LO 3 N/A N/A N/A 45.1 N/A N/A 4 N/A N/A N/A N/A 58.7 N/A 5 N/A N/A N/A N/A N/A 65.5 6 N/A N/A N/A N/A N/A N/A 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 28.8 N/A N/A N/A N x LO 3 N/A N/A N/A 41 N/A N/A 4 N/A N/A N/A N/A 58.6 N/A 5 N/A N/A N/A N/A N/A 64.7 6 N/A N/A N/A N/A N/A N/A RF = 86 GHz at RFIN = -10 dBm, LO frequency = 14 GHz at LOIN = 2 dBm RF = 86 GHz at RFIN = -10 dBm, LO frequency = 14 GHz at LOIN = 2 dBm 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A RF = 83 GHz at RFIN = -10 dBm, LO frequency = 13.5 MHz at LOIN = 2 dBm. RF = 83 GHz at RFIN = -10 dBm, LO frequency = 13.5 MHz at LOIN = 2 dBm. 0 N/A N/A N/A N/A N/A N/A 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 6 N/A N/A N/A N/A N/A N/A Rev. A | Page 46 of 55 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 26 N/A N/A N/A N x LO 3 N/A N/A N/A 40.7 N/A N/A 4 N/A N/A N/A N/A 56.5 N/A 5 N/A N/A N/A N/A N/A 54.2 6 N/A N/A N/A N/A N/A N/A Data Sheet HMC7587 M x N Spurious Outputs, VDLNA = 3 V SPURIOUS PERFORMANCE WITH LOWER SIDEBAND SELECTED, IF = 500 MHz TA = 25C, VGMIX = -1 V, VDAMPx = 4 V, VDMULT = 1.5 V, LOIN = 2 dBm. RF = 81 GHz at RFIN = -10 dBm, LO frequency = 13.583 GHz at LOIN = 2 dBm. Mixer spurious products are measured in dBc from the IF output power level. Spur values are (M x RF) - (N x LO). N/A means not applicable. M x N Spurious Outputs, VDLNA = 4 V M x RF RF = 81 GHz at RFIN = -10 dBm, LO frequency = 13.583 GHz at LOIN = 2 dBm. M x RF 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 27.6 N/A N/A N/A N x LO 3 N/A N/A N/A 38.5 N/A N/A 4 N/A N/A N/A N/A 52.8 N/A 5 N/A N/A N/A N/A N/A 55.9 6 N/A N/A N/A N/A N/A N/A M x RF M x RF 0 1 2 3 4 5 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 25.4 N/A N/A N/A N x LO 3 N/A N/A N/A 38.3 N/A N/A 4 N/A N/A N/A N/A 49.2 N/A 5 N/A N/A N/A N/A N/A 55.1 6 N/A N/A N/A N/A N/A N/A M x RF M x RF 0 1 2 3 4 5 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 28.9 N/A N/A N/A N x LO 3 N/A N/A N/A 44.8 N/A N/A 4 N/A N/A N/A N/A 59.1 N/A 5 N/A N/A N/A N/A N/A 64.8 2 N/A N/A 28.5 N/A N/A N/A N x LO 3 N/A N/A N/A 40.6 N/A N/A 4 N/A N/A N/A N/A 55.6 N/A 5 N/A N/A N/A N/A N/A 59.8 6 N/A N/A N/A N/A N/A N/A 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 26.3 N/A N/A N/A N x LO 3 N/A N/A N/A 40 N/A N/A 4 N/A N/A N/A N/A 52.1 N/A 5 N/A N/A N/A N/A N/A 58.3 6 N/A N/A N/A N/A N/A N/A RF = 86 GHz at RFIN = -10 dBm, LO frequency = 14.416 GHz at LOIN = 2 dBm. RF = 86 GHz at RFIN = -10 dBm, LO frequency = 14.416 GHz at LOIN = 2 dBm. 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A RF = 83 GHz at RFIN = -10 dBm, LO frequency = 13.916 MHz at LOIN = 2 dBm. RF = 83 GHz at RFIN = -10 dBm, LO frequency = 13.916 GHz at LOIN = 2 dBm. 0 N/A N/A N/A N/A N/A N/A 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 6 N/A N/A N/A N/A N/A N/A Rev. A | Page 47 of 55 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 28.8 N/A N/A N/A N x LO 3 N/A N/A N/A 46.5 N/A N/A 4 N/A N/A N/A N/A 61.6 N/A 5 N/A N/A N/A N/A N/A 68.5 6 N/A N/A N/A N/A N/A N/A HMC7587 Data Sheet M x N Spurious Outputs, VDLNA = 3 V SPURIOUS PERFORMANCE WITH LOWER SIDEBAND SELECTED, IF = 1000 MHz TA = 25C, VGMIX = -1 V, VDAMPx = 4 V, VDMULT = 1.5 V, LOIN = 2 dBm. RF = 81 GHz at RFIN = -10 dBm, LO frequency = 13.666 GHz at LOIN = 2 dBm. Mixer spurious products are measured in dBc from the IF output power level. Spur values are (M x RF) - (N x LO). N/A means not applicable. M x N Spurious Outputs, VDLNA = 4 V M x RF RF = 81 GHz at RFIN = -10 dBm, LO frequency = 13.666 GHz at LOIN = 2 dBm. M x RF 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 26.5 N/A N/A N/A N x LO 3 N/A N/A N/A 37.1 N/A N/A 4 N/A N/A N/A N/A 51 N/A 5 N/A N/A N/A N/A N/A 55.6 6 N/A N/A N/A N/A N/A N/A M x RF M x RF 0 1 2 3 4 5 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 26.5 N/A N/A N/A N x LO 3 N/A N/A N/A 40 N/A N/A 4 N/A N/A N/A N/A 50.8 N/A 5 N/A N/A N/A N/A N/A 59.4 6 N/A N/A N/A N/A N/A N/A M x RF M x RF 0 1 2 3 4 5 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 27.7 N/A N/A N/A N x LO 3 N/A N/A N/A 42.8 N/A N/A 4 N/A N/A N/A N/A 56.9 N/A 5 N/A N/A N/A N/A N/A 68.1 2 N/A N/A 27.6 N/A N/A N/A N x LO 3 N/A N/A N/A 39.2 N/A N/A 4 N/A N/A N/A N/A 53.4 N/A 5 N/A N/A N/A N/A N/A 59.1 6 N/A N/A N/A N/A N/A N/A 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 27.4 N/A N/A N/A N x LO 3 N/A N/A N/A 41.8 N/A N/A 4 N/A N/A N/A N/A 54.9 N/A 5 N/A N/A N/A N/A N/A 62.9 6 N/A N/A N/A N/A N/A N/A RF = 86 GHz at RFIN = -10 dBm, LO frequency = 14.5 GHz at LOIN = 2 dBm. RF = 86 GHz at RFIN = -10 dBm, LO frequency = 14.5 GHz at LOIN = 2 dBm. 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A RF = 83 GHz at RFIN = -10 dBm, LO frequency = 14 GHz at LOIN = 2 dBm. RF = 83 GHz at RFIN = -10 dBm, LO frequency = 14 GHz at LOIN = 2 dBm. 0 N/A N/A N/A N/A N/A N/A 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 6 N/A N/A N/A N/A N/A N/A Rev. A | Page 48 of 55 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 28.1 N/A N/A N/A N x LO 3 N/A N/A N/A 45.2 N/A N/A 4 N/A N/A N/A N/A 60.3 N/A 5 N/A N/A N/A N/A N/A 73.2 6 N/A N/A N/A N/A N/A N/A Data Sheet HMC7587 M x N Spurious Outputs, VDLNA = 3 V SPURIOUS PERFORMANCE WITH LOWER SIDEBAND SELECTED, IF = 2000 MHz TA = 25C, VGMIX = -1 V, VDAMPx = 4 V, VDMULT = 1.5 V, LOIN = 2 dBm. RF = 81 GHz at RFIN = -10 dBm, LO frequency = 13.833 GHz at LOIN = 2 dBm. Mixer spurious products are measured in dBc from the IF output power level. Spur values are (M x RF) - (N x LO). N/A means not applicable. M x N Spurious Outputs, VDLNA = 4 V M x RF RF = 81 GHz at RFIN = -10 dBm, LO frequency = 13.833 GHz at LOIN = 2 dBm. M x RF 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 25.1 N/A N/A N/A N x LO 3 N/A N/A N/A 38.3 N/A N/A 4 N/A N/A N/A N/A 48 N/A 5 N/A N/A N/A N/A N/A 56.5 6 N/A N/A N/A N/A N/A N/A M x RF M x RF 0 1 2 3 4 5 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 27.9 N/A N/A N/A N x LO 3 N/A N/A N/A 43.2 N/A N/A 4 N/A N/A N/A N/A 56.2 N/A 5 N/A N/A N/A N/A N/A 65.4 6 N/A N/A N/A N/A N/A N/A M x RF M x RF 0 1 2 3 4 5 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 22.3 N/A N/A N/A N x LO 3 N/A N/A N/A 40.1 N/A N/A 4 N/A N/A N/A N/A 48.1 N/A 5 N/A N/A N/A N/A N/A 63 2 N/A N/A 25.9 N/A N/A N/A N x LO 3 N/A N/A N/A 39.5 N/A N/A 4 N/A N/A N/A N/A 51.8 N/A 5 N/A N/A N/A N/A N/A 59.5 6 N/A N/A N/A N/A N/A N/A 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 28.9 N/A N/A N/A N x LO 3 N/A N/A N/A 45.6 N/A N/A 4 N/A N/A N/A N/A 60 N/A 5 N/A N/A N/A N/A N/A 63.9 6 N/A N/A N/A N/A N/A N/A RF = 86 GHz at RFIN = -10 dBm, LO frequency = 14.666 GHz at LOIN = 2 dBm. RF = 86 GHz at RFIN = -10 dBm, LO frequency = 14.666 GHz at LOIN = 2 dBm. 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A RF = 83 GHz at RFIN = -10 dBm, LO frequency = 14.166 GHz at LOIN = 2 dBm. RF = 83 GHz at RFIN = -10 dBm, LO frequency = 14.166 GHz at LOIN = 2 dBm. 0 N/A N/A N/A N/A N/A N/A 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 6 N/A N/A N/A N/A N/A N/A Rev. A | Page 49 of 55 0 1 2 3 4 5 0 N/A N/A N/A N/A N/A N/A 1 N/A N/A N/A N/A N/A N/A 2 N/A N/A 23.2 N/A N/A N/A N x LO 3 N/A N/A N/A 42.3 N/A N/A 4 N/A N/A N/A N/A 51 N/A 5 N/A N/A N/A N/A N/A 67 6 N/A N/A N/A N/A N/A N/A HMC7587 Data Sheet THEORY OF OPERATION Quadrature LO signals drive the two I and Q mixer cores. The LO path provides a 6x multiplier that allows the use of a lower frequency range LO input signal, typically between 11.83 GHz and 14.33 GHz. The 6x multiplier is implemented using a cascade of 3x and 2x multipliers. The LO buffer amplifiers are included on-chip to allow a typical LO drive level of only 2 dBm for full performance. The HMC7587 is a GaAs low noise I/Q downconverter with an integrated LO buffer and a 6x multiplier. See Figure 210 for a functional block diagram of the downconverter circuit architecture. The RF input is internally ac-coupled and matched to 50 . The input passes through four stages of low noise amplification. The preamplified RF input signal then splits and drives two singly balanced passive mixers. IFIP IFIN VDAMP2 VGAMP VDAMP1 VDMULT x2 VGX3 VGX2 LOIN x3 VGMIX AC COUPLING, MATCHING ELEMENTS, AND GND BOND PADS NOT ILLUSTRATED. IFQN IFQP VDLNA4 VGLNA4 VDLNA3 VGLNA3 VDLNA2 VGLNA2 VDLNA1 Figure 210. Downconverter Circuit Architecture Rev. A | Page 50 of 55 VGLNA1 13141-230 RFIN Data Sheet HMC7587 APPLICATIONS INFORMATION BIASING SEQUENCE To power down the HMC7587, follow the procedure in reverse. The HMC7587 uses several amplifier and multiplier stages. The active stages all use depletion mode pseudomorphic high electron mobility transistors (pHEMTs). To ensure transistor damage does not occur, use the following power-up bias sequence: For additional guidance on general bias sequencing, see the MMIC Amplifier Biasing Procedure application note. 1. 2. 3. 4. 5. 6. IMAGE REJECTION DOWNCONVERSION A typical image rejection downconversion application circuit is shown in Figure 211. For image rejection downconversions, external 180and 90 hybrid couplers are typically used. The 180 hybrids or baluns convert the differential I and Q output signals to unbalanced waveforms. The 90 hybrid then combines the outputs in quadrature to form a classic Hartley image rejection receiver with a typical image rejection of 30 dBc. Apply a -2 V bias to VGAMP, VGLNA1, VGLNA2, VGLNA3, VGLNA4, VGX2, and VGX3. Apply a -1 V bias to VGMIX. Apply 4 V to VDAMP1, VDAMP2, VDLNA1, VDLNA2, VDLNA3, and VDLNA4, and apply 1.5 V to VDMULT. Adjust VGAMP between -2 V and 0 V to achieve a total amplifier drain current (IDAMP1 + IDAMP2) of 175 mA. Adjust VGLNA1, VGLNA2, VGLNA3, and VGLNA4 to achieve a total LNA drain current (IDLNA1 + IDLNA2 + IDLNA3 + IDLNA4) of 50 mA. Apply the LO input signal with a power level of 2 dBm and adjust VGX2 and VGX3 between -2 V and 0 V to achieve 80 mA of drain current on VDMULT. VGAMP 120pF 0.01F 4.7F VDAMP1 , VDAMP2 VDMULT 4.7F 0.01F 120pF 120pF 0.01F 4.7F 4.7F 0.01F 120pF 120pF 0.01F 4.7F VGX2, VGX3 VGMIX LOIN 13 14 15 16 17 18 19 20 21 LOIN 12 VGX2 11 VGX3 10 VDMULT 9 VDAMP1 8 VGAMP 5 7 VDAMP2 IFIN 6 VGMIX IFIP 4 180 HYBRID x6 IF OUTPUT 90 HYBRID IFQN IFQP 3 RFIN 2 22 180 HYBRID 40 39 38 37 36 35 34 33 32 31 30 VGLNA1 VDLNA1 VGLNA2 VDLNA2 VGLNA3 VDLNA3 HMC7587 VDLNA4 1 VGLNA4 23 29 28 27 RF INPUT 24 26 25 VDLNA3 , VDLNA4 VGLNA1, VGLNA2 0.01F 120pF 4.7F 0.01F 120pF 120pF 0.01F 4.7F VDLNA1 , VDLNA2 VGLNA3, VGLNA4 120pF Figure 211. Typical Image Rejection Downconversion Application Circuit Rev. A | Page 51 of 55 0.01F 4.7F 13141-231 4.7F HMC7587 Data Sheet The HMC7587 I/Q outputs are ground referenced and dc coupling to a differential signal source with a common-mode output voltage other than 0 V can cause degraded RF performance and possible device damage due to electrical overstress. ZERO IF DIRECT CONVERSION A typical zero IF direct conversion application circuit is shown in Figure 212. It is important to ac couple the IFIP, IFIN, IFQP, and IFQN pads to the ADC inputs. Most ADCs are designed to operate with a common-mode voltage that is above ground. VDAMP1 , VDAMP2 VGMIX 120pF 0.01F 4.7F 4.7F 0.01F 120pF 120pF 0.01F 4.7F 4.7F 0.01F 120pF 120pF 0.01F 4.7F VGAMP VDMULT VGX2, VGX3 LOIN 14 15 16 17 18 19 20 21 LOIN 13 VGX2 12 VGX3 11 VDMULT 10 VDAMP1 IFIN 9 VDAMP2 I ADC 8 VGAMP 5 7 VGMIX IFIP 6 4 x6 IFQN 3 Q ADC IFQP RFIN 2 22 VDLNA3 , VDLNA4 VGLNA3, VGLNA4 4.7F 0.01F 120pF 4.7F 0.01F 120pF 39 38 37 36 34 33 32 31 30 VGLNA1 VDLNA1 VGLNA2 VDLNA2 VGLNA3 35 29 28 27 26 24 25 120pF 120pF Figure 212. Typical Zero IF Direct Conversion Application Circuit Rev. A | Page 52 of 55 RF INPUT 0.01F 0.01F 4.7F 4.7F VGLNA1, VGLNA2 VDLNA1 , VDLNA2 13141-232 40 VDLNA3 HMC7587 VDLNA4 1 VGLNA4 23 Data Sheet HMC7587 ASSEMBLY DIAGRAM VGMIX VDAMP1 , VDAMP2 VGAMP VDMULT VGX2, VGX3 4.7F 4.7F 4.7F 4.7F 4.7F 0.01F 1mil GOLD WIRE (WEDGE BOND) 3mil NOMINAL GAP 120pF LOIN IFIP IFIN IFQN IFQP RFIN 50 TRANSMISSION LINE 120pF 1mil GOLD WIRE (WEDGE BOND) 3mil WIDE GOLD RIBBON (WEDGE BOND) 0.01F 4.7F VDLNA4 VGLNA4 4.7F 4.7F VDLNA1 , VDLNA2 , VGLNA1, VGLNA2, VDLNA3 VGLNA3 Figure 213. Assembly Diagram Rev. A | Page 53 of 55 13141-234 4.7F HMC7587 Data Sheet MOUNTING AND BONDING TECHNIQUES FOR MILLIMETERWAVE GaAs MMICS Attach the die directly to the ground plane eutectically or with conductive epoxy. To bring RF to and from the chip, use 50 microstrip transmission lines on 0.127 mm (5 mil) thick alumina thin film substrates (see Figure 214). General Handling Handle the chip on the edges only using a vacuum collet or with a sharp pair of bent tweezers. Because the surface of the chip has fragile air bridges, never touch the surface of the chip with a vacuum collet, tweezers, or fingers. MOUNTING 0.05mm (0.002") THICK GaAs MMIC The chip is back metallized and can be die mounted with gold/ tin (AuSn) eutectic preforms or with electrically conductive epoxy. The mounting surface must be clean and flat. WIRE BOND 0.076mm (0.003") Eutectic Die Attach It is best to use an 80%/20% gold/tin preform with a work surface temperature of 255C and a tool temperature of 265C. When hot 90%/10% nitrogen/hydrogen gas is applied, maintain the tool tip temperature at 290C. Do not expose the chip to a temperature greater than 320C for more than 20 sec. No more than 3 sec of scrubbing is required for attachment. 0.127mm (0.005") THICK ALUMINA THIN FILM SUBSTRATE 13141-235 RF GROUND PLANE Figure 214. Routing RF Signals To minimize bond wire length, place microstrip substrates as close to the die as possible. Typical die to substrate spacing is 0.076 mm to 0.152 mm (3 mil to 6 mil). HANDLING PRECAUTIONS To avoid permanent damage, adhere to the following precautions. Storage All bare die ship in either waffle or gel-based ESD protective containers, sealed in an ESD protective bag. After opening the sealed ESD protective bag, all die must be stored in a dry nitrogen environment. Cleanliness Handle the chips in a clean environment. Never use liquid cleaning systems to clean the chip. Static Sensitivity Follow ESD precautions to protect against ESD strikes. Transients Epoxy Die Attach ABLEBOND 84-1LMIT is recommended for die attachment. Apply a minimum amount of epoxy to the mounting surface so that upon placing it into position, a thin epoxy fillet is observed around the perimeter of the chip. Cure epoxy per the schedule provided by the manufacturer. WIRE BONDING RF bonds made with (3 mil (0.0762 mm) x 0.5 mil (0.0127 mm) gold ribbon are recommended for the RF ports and wedge bonds with 1 mil (0.0254 mm) diameter gold wire are recommended for the IF and LO ports. These bonds must be thermosonically bonded with a force of 40 g to 60 g. DC bonds of 1 mil (0.0254 mm) diameter, thermosonically bonded, are recommended. Create ball bonds with a force of 40 g to 50 g and wedge bonds at 18 g to 22 g. Create all bonds with a nominal stage temperature of 150C. Apply a minimum amount of ultrasonic energy to achieve reliable bonds. Keep all bonds as possible, less than 12 mils (0.31 mm). Suppress instrument and bias supply transients while bias is applied. To minimize inductive pickup, use shielded signal and bias cables. Rev. A | Page 54 of 55 Data Sheet HMC7587 OUTLINE DIMENSIONS 3.599 0.290 0.510 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.474 0.151 0.058 6 5 0.307 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21 0.162 4 0.648 2.199 3 0.307 2 22 0.500 23 24 1 0.210 0.095 31 30 29 28 27 26 25 0.274 0.114 0.318 1.055 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 0.15 TOP VIEW (CIRCUIT SIDE) 04-10-2015-A 0.085 40 39 38 37 36 35 34 33 32 0.130 0.130 Figure 215. 40-Pad Bare Die [CHIP] (C-40-1) Dimensions shown in millimeters ORDERING GUIDE Model1 HMC7587 HMC7587-SX 1 2 Temperature Range -55C to +85C -55C to +85C Package Description 40-Pad Bare Die [CHIP] 40-Pad Bare Die [CHIP] The HMC7587-SX consists of two pairs of the die in a gel pack for sample orders. This is a waffle pack option; contact Analog Devices, Inc., for additional packaging options. (c)2016 Analog Devices, Inc. All rights reserved. Trademarks and registered trademarks are the property of their respective owners. D13141-0-3/16(A) Rev. A | Page 55 of 55 Package Option2 C-40-1 C-40-1