71 GHz to 76 GHz, E-Band I/Q Downconverter Data Sheet HMC7586€¦ · 71 GHz to 76 GHz, E-Band I/Q Downconverter Data Sheet HMC7586 Rev. A Document Feedback Information furnished

71 GHz to 76 GHz, E-Band I/Q Downconverter

Data Sheet HMC7586

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 ©2016 Analog Devices, Inc. All rights reserved. Technical Support www.analog.com

FEATURES Conversion gain: 12.5 dB typical Image rejection: 28 dBc typical Noise figure: 5 dB typical Input power for 1 dB compression (P1dB): −9 dBm typical Input third-order intercept (IP3): −1 dBm typical Input second-order intercept (IP2): 20 dBm typical 6× local oscillator (LO) leakage at RFIN: −40 dBm typical 1× LO leakage at IFOUT: −50 dBm typical Radio frequency (RF) return loss: 5 dB typical LO return loss: 20 dB typical Die size: 3.599 mm × 2.199 mm × 0.05 mm

APPLICATIONS E-band communication systems High capacity wireless backhauls Test and measurement

GENERAL DESCRIPTION The HMC7586 is an integrated E-band gallium arsenide (GaAs), monolithic microwave integrated circuit (MMIC) in-phase/ quadrature (I/Q) downconverter chip that operates from 71 GHz to 76 GHz. The HMC7586 provides a small signal conversion gain of 12.5 dB with 28 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 6× LO 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 for single-sideband applications. All data includes the effect of a 1 mil gold wire wedge bond on the intermediate frequency (IF) ports.

FUNCTIONAL BLOCK DIAGRAM

IFIP

V GM

IX

V DA

MP2

V GA

MP

V DA

MP1

V DM

ULT

V GX3

V GX2

LOIN

IFIN

IFQN

IFQP

5

4

3

2

1

6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21

6×

HMC7586

22

23

24

40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25

RFIN

V GLN

A1

V DLN

A1

V GLN

A2

V DLN

A2

V GLN

A3

V DLN

A3

V GLN

A4

V DLN

A4

1312

8-00

1

Figure 1.

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HMC7586 Data Sheet

Rev. A | Page 2 of 55

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 Lower Sideband Selected, IF = 1000 MHz ................................ 7 Return Loss Performance .......................................................... 12 Lower Sideband Selected, IF = 500 MHz ................................ 13 Lower Sideband Selected, IF = 2000 MHz .............................. 18 Noise Figure Performance, Lower Sideband Selected ........... 23 Amplitude Balance Performance, Lower Sideband Selected 24 Phase Balance Performance, Lower Sideband Selected ........ 25 Upper Sideband Selected, IF = 500 MHz ................................ 26 Upper Sideband Selected, IF = 1000 MHz .............................. 31 Upper Sideband Selected, IF = 2000 MHz .............................. 36 Noise Figure Performance, Upper Sideband Selected ........... 41 Amplitude Balance Performance, Upper Sideband Selected 42 Phase Balance Performance, Upper Sideband Selected ........ 43

Spurious Performance With Lower Sideband Selected, IF = 500 MHz ...................................................................................... 44 Spurious Performance With Lower Sideband Selected, IF = 1000 MHz .................................................................................... 45 Spurious Performance With Lower Sideband Selected, IF = 2000 MHz .................................................................................... 46 Spurious Performance with Upper Sideband Selected, IF = 500 MHz ...................................................................................... 47 Spurious Performance with Upper Sideband Selected, IF = 1000 MHz .................................................................................... 48 Spurious Performance with Upper 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

REVISION HISTORY 3/16—Revision A: Initial Version

Data Sheet HMC7586


SPECIFICATIONS TA = 25°C, IF = 1000 MHz, VGMIX = −1 V, VDAMPx = 4 V, VDMULT = 1.5 V, voltage on the VDLNAx pins (VDLNA) = 3 V, LO = 2 dBm, lower sideband selected. Measurements performed as a downconverter with external 90° and 180° hybrids at the IF ports, unless otherwise noted.

Table 1. Parameter Test Conditions/Comments Min Typ Max Unit OPERATING CONDITIONS

RF Frequency Range 71 76 GHz LO Frequency Range 11.83 14.33 GHz IF Frequency Range 0 10 GHz LO Drive Range 2 8 dBm

PERFORMANCE Conversion Gain 8 12.5 dB Image Rejection 20 28 dBc Input Third-Order Intercept (IP3) −1 dBm Input Second-Order Intercept (IP2) 20 dBm Input Power for 1 dB Compression (P1dB) VDLNAx = 4 V −9 dBm 6× LO Leakage at RF Input (RFIN) −40 dBm 1× LO Leakage at IF Output (IFOUT) −50 dBm Amplitude Balance1 −0.4 dB Phase Balance1 ±4 Degrees Noise Figure 5 dB RF Return Loss 5 dB LO Return Loss VDLNAx = 4 V 20 dB IF Return Loss1 VDLNAx = 4 V 25 dB

POWER SUPPLY Supply Current

IDAMP2 175 mA IDMULT3 Under LO drive 80 mA IDLNA4 50 mA

1 Measurements performed without external hybrids at the IF ports. 2 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 achieve the total 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 total quiescent current, IDLNA1 + IDLNA2 + IDLNA3 + IDLNA4 = 50 mA.

HMC7586 Data Sheet


ABSOLUTE MAXIMUM RATINGS Table 2. Parameter Rating Drain Bias Voltage

VDAMP1, VDAMP2 4.5 V VDMULT 3 V VDLNA1, VDLNA2, VDLNA3, VDLNA4 4.5 V

Gate Bias Voltage VGAMP −3 V to 0 V VGX2, VGX3 −3 V to 0 V VGLNA1, VGLNA2, VGLNA3, VGLNA4 −3 V to 0 V VGMIX −3 V to 0 V

LO Input Power 10 dBm Maximum Junction Temperature (to

Maintain 1 Million Hours Mean Time to Failure (MTTF))

175°C

Storage Temperature Range −65°C to +150°C Operating Temperature Range −55°C to +85°C ESD Sensitivity, Human Body Model (HBM) 100 V (Class 0)

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.

THERMAL RESISTANCE

Table 3. Thermal Resistance Package Type θJC1 Unit 40-Pad Bare Die [CHIP] 61.7 °C/W 1 Based on ABLEBOND® 84-1LMIT as die attach epoxy with a thermal

conductivity of 3.6 W/mK.

ESD CAUTION

Data Sheet HMC7586


PIN CONFIGURATION AND FUNCTION DESCRIPTIONS

HMC7586

IFIP

V GM

IX

V DA

MP2

GN

D

GN

D

GN

D

GN

D

GN

D

GN

D

GN

D

GN

D

V GA

MP

V DA

MP1

V DM

ULT

V GX3

V GX2

LOIN

IFIN

IFQN

IFQP

5

4

3

2

1

6 7 8 9 10 11 12 13 14 15 16 17 18 19 20 21

22

23

24

40 39 38 37 36 35 34 33 32 31 30 29 28 27 26 25

RFIN

GND

GND

V GLN

A1

GN

D

GN

D

GN

D

GN

D

GN

D

GN

D

GN

D

GN

D

V DLN

A1

V GLN

A2

V DLN

A2

V GLN

A3

V DLN

A3

V GLN

A4

V DLN

A4

GND

1312

8-00

2

Figure 2. Pad Configuration

Table 4. Pad Function Descriptions Pad No. Mnemonic Description 1, 7, 9, 11, 13, 15, 17, 19, 21, 22, 24, 25, 27, 29, 31, 33, 35, 37, 39

GND Ground Connect. See Figure 3.

2, 3 IFQP, IFQN Positive and Negative IF Q Outputs. 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 die failure may result (see Figure 4).

4, 5 IFIN, IFIP Negative and Positive IF I Outputs. 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 die failure may result (see Figure 4).

6 VGMIX Gate Voltage for the FET Mixer. See Figure 5. Refer to the typical application circuit for required external components (see Figure 211).

8, 12 VDAMP2, VDAMP1 Power Supply Voltage for the First and the Second Stage LO Amplifier. See Figure 5. Refer to the typical application circuit for required external components (see Figure 211).

10 VGAMP Gate Voltage for the First and the Second Stage LO Amplifier. See Figure 5. Refer to the typical application circuit for required external components (see Figure 211).

14 VDMULT Power Supply Voltage for the LO Multiplier. See Figure 5. Refer to the typical application circuit for required external components (see Figure 211).

16, 18 VGX3, VGX2 Gate Voltage for the LO Multiplier. See Figure 5. Refer to the typical application circuit for required external components (see Figure 211).

20 LOIN Local Oscillator Input. This pad is dc-coupled and matched to 50 Ω (see Figure 6). 23 RFIN RF Input. This pad is ac-coupled and matched to 50 Ω (see Figure 7). 26, 30, 34, 38 VGLNA1, VGLNA2,

VGLNA3, VGLNA4 Gate Voltage for the Low Noise Amplifier. See Figure 8. Refer to the typical application circuit for required external components (see Figure 211).

28, 32, 36, 40 VDLNA1, VDLNA2, VDLNA3, VDLNA4

Power Supply Voltage for the Low Noise Amplifier. See Figure 8. Refer to the typical application circuit for required external components (see Figure 211).

Die Bottom GND Ground. Die bottom must be connected to RF/dc ground (see Figure 3).

HMC7586 Data Sheet


INTERFACE SCHEMATICS

GND

1312

8-00

3

Figure 3. GND Interface

IFIN, IFIP,IFQN, IFQP

200Ω13

128-

004

Figure 4. IFIP, IFIN, IFQN, IFQP, and VGMIX Interface

VDAMP1, VDAMP2,VDMULT

VGMIX, VGAMP,VGX2, VGX3

100Ω

1312

8-00

5

Figure 5. VDAMP1, VDAMP2, VDMULT, VGAMP, VGMIX, VGX2, and VGX3 Interface

LOIN

1312

8-00

6

Figure 6. LOIN Interface

RFIN 1312

8-00

7

Figure 7. RFIN Interface

VDLNA1, VDLNA2,VDLNA3, VDLNA4

VGLNA1, VGLNA2,VGLNA3, VGLNA4

100Ω

1312

8-00

8

Figure 8. VDLNA1, VDLNA2, VDLNA3, VDLNA4, VGLNA1, VGLNA2, VGLNA3, and VGLNA4 Interface

Data Sheet HMC7586


TYPICAL PERFORMANCE CHARACTERISTICS LOWER SIDEBAND SELECTED, IF = 1000 MHz

16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-00

9

Figure 9. Conversion Gain vs. RF Frequency at Various Temperatures, RFIN = −20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V

16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)

LO = –4dBmLO = –2dBmLO = 0dBmLO = +2dBmLO = +4dBmLO = +6dBmLO = +8dBm

1312

8-01

0

Figure 10. Conversion Gain vs. RF Frequency at Various LO Powers, RFIN = −20 dBm, IF = 1000 MHz, VDLNA = 4 V

20

16

12

8

4

0

–8

–16

–4

–12

–2071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)

IDLNA = 5mAIDLNA = 10mAIDLNA = 15mAIDLNA = 20mAIDLNA = 25mA


1312

8-01

1

Figure 11. Conversion Gain vs. RF Frequency at Various IDLNA Values, RFIN = −20 dBm, IF = 1000 MHz, VDLNA = 4 V

16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-01

2


16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)


1312

8-01

3


20

16

12

8

4

0

–8

–16

–4

–12

–2071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)



1312

8-01

4


HMC7586 Data Sheet


0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-01

5

Figure 15. Image Rejection vs. RF Frequency at Various Temperatures, RFIN = −20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V

0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)


1312

8-01

6

Figure 16. Image Rejection vs. RF Frequency at Various LO Powers, RFIN = −20 dBm, IF = 1000 MHz, VDLNA = 4 V

0

–4

–8

–12

–16

–20

–24

–28

–36

–32

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)



1312

8-01

7

Figure 17. Image Rejection vs. RF Frequency at Various IDLNA Values, RFIN = −20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V

0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-01

8

Figure 18. Image Rejection vs. RF Frequency at Various Temperatures, RFIN = −20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V

0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)


1312

8-01

9

Figure 19. Image Rejection vs. RF Frequency at Various LO Powers, RFIN = −20 dBm, IF = 1000 MHz, VDLNA = 3 V

0

–4

–8

–12

–16

–20

–24

–28

–36

–32

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)



1312

8-02

0


Data Sheet HMC7586


10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-02

1

Figure 21. Input IP3 vs. RF Frequency at Various Temperatures, RFIN = −20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V

10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)


1312

8-02

2

Figure 22. Input IP3 vs. RF Frequency at Various LO Powers, RFIN = −20 dBm, IF = 1000 MHz, VDLNA = 4 V

10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)



1312

8-02

3

Figure 23. Input IP3 vs. RF Frequency at Various IDLNA Values, RFIN = −20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V

10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-02

4

Figure 24. Input IP3 vs. RF Frequency at Various Temperatures, RFIN = −20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 3 V

10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)


1312

8-02

5

Figure 25. Input IP3 vs. RF Frequency at Various LO Powers, RFIN = −20 dBm, IF = 1000 MHz, VDLNA = 3 V

10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)



1312

8-02

6


HMC7586 Data Sheet


40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-02

7

Figure 27. Input IP2 vs. RF Frequency at Various Temperatures,

RFIN = −20 dBm, LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V

40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)


1312

8-02

8

Figure 28. Input IP2 vs. RF Frequency at Various LO Powers,

RFIN = −20 dBm, IF = 1000 MHz, VDLNA = 4 V

40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)



1312

8-02

9


40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-03

0



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)


1312

8-03

1



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)



1312

8-03

2


Data Sheet HMC7586


0

–2

–4

–6

–10

–12

–8

–16

–14

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

P1dB

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-03

3

Figure 33. Input P1dB vs. RF Frequency at Various Temperatures,

LO = 2 dBm, IF = 1000 MHz, VDLNA = 4 V

–30

–70

–65

–60

–55

–50

–45

–40

–35

11.8 11.9 12.0 12.1 12.2 12.3 12.4 12.5 12.6 12.7 12.8 12.9 13.0

LEA

KA

GE

(dB

m)

1× LO FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-03

4

Figure 34. LO Leakage at IFOUT vs. 1× LO Frequency at Various Temperatures, LO = 2 dBm, VDLNA = 3 V

–30

–70

–65

–60

–55

–50

–45

–40

–35

11.8 11.9 12.0 12.1 12.2 12.3 12.4 12.5 12.6 12.7 12.8 12.9 13.0

LEA

KA

GE

(dB

m)


LO = –4dBmLO = –2dBmLO = 0dBmLO = +2dBmLO = +4dBmLO = +6dBm

1312

8-03

5

Figure 35. LO Leakage at IFOUT vs. 1× LO Frequency at Various LO Powers, VDLNA = 3 V

0

–2

–4

–6

–10

–12

–8

–1471.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

P1dB

(dB

m)

RF FREQUENCY (GHz)


1312

8-03

6

Figure 36. Input P1dB vs. RF Frequency at Various LO Powers,

IF = 1000 MHz, VDLNA = 4 V

–20

–25

–60

–55

–50

–45

–40

–35

–30

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

LEA

KA

GE

(dB

m)


TA = +85°CTA = +25°CTA = –55°C

1312

8-03

7

Figure 37. 6× LO Leakage at RFIN vs. 6× LO Frequency at Various

Temperatures, LO = 2 dBm, VDLNA = 3 V

–20

–25

–60

–55

–50

–45

–40

–35

–30

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

LEA

KA

GE

(dB

m)


LO = 0dBmLO = 2dBmLO = 4dBmLO = 6dBmLO = 8dBm

1312

8-03

8

Figure 38. 6× LO Leakage at RFIN vs. 6× LO Frequency at Various LO Powers,

VDLNA = 3 V

HMC7586 Data Sheet


RETURN LOSS PERFORMANCE 0

–2

–4

–6

–10

–12

–8

–1471.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

RET

UR

N L

OSS

(dB

)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-03

9

Figure 39. RF Return Loss vs. RF Frequency at Various Temperatures, LO = 2 dBm, LO = 12 GHz, VDLNA = 4 V

0

–40

–28

–32

–36

–24

–20

–16

–12

–8

–4

11.50 11.75 12.00 12.25 12.50 12.75 13.00 13.25 13.50 13.75 14.00 14.25 14.50

RET

UR

N L

OSS

(dB

)

LO FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-04

0

Figure 40. LO Return Loss vs. LO Frequency at Various Temperatures,

LO = 2 dBm, VDLNA = 4 V

0

–40

–25

–30

–35

–20

–15

–10

–5

0.1 1.1 2.1 3.1 4.1 5.1 6.1 7.1 8.1 9.1 10.1

RET

UR

N L

OSS

(dB

)

IF FREQUENCY (GHz)

IFIPIFINIFQNIFQP

1312

8-04

1

Figure 41. IF Return Loss vs. IF Frequency, LO = 2 dBm, LO = 12 GHz, VDLNA = 4 V

0

–2

–4

–6

–10

–12

–8

–1471.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

RET

UR

N L

OSS

(dB

)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-04

2

Figure 42. RF Return Loss vs. RF Frequency at Various Temperatures,

LO = 2 dBm, LO = 12 GHz, VDLNA = 3 V

0

–40

–28

–32

–36

–24

–20

–16

–12

–8

–4

11.50 11.75 12.00 12.25 12.50 12.75 13.00 13.25 13.50 13.75 14.00 14.25 14.50

RET

UR

N L

OSS

(dB

)

LO FREQUENCY (GHz)


1312

8-04

3

Figure 43. LO Return Loss vs. LO Frequency at Various LO Powers,

VDLNA = 4 V

Data Sheet HMC7586


LOWER SIDEBAND SELECTED, IF = 500 MHz 16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-04

4


16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)


1312

8-04

5


20

16

12

8

4

0

–8

–16

–4

–12

–2071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)



1312

8-04

6


16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-04

7


16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)


1312

8-04

8


20

16

12

8

4

0

–8

–16

–4

–12

–2071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)



1312

8-04

9


HMC7586 Data Sheet


0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-05

0

Figure 50. Image Rejection vs. RF Frequency at Various Temperatures,


0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)


1312

8-05

1

Figure 51. Image Rejection vs. RF Frequency at Various LO Powers,


0

–4

–8

–12

–16

–20

–24

–28

–36

–32

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)



1312

8-05

2


0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-05

3



0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)


1312

8-05

4



0

–4

–8

–12

–16

–20

–24

–28

–36

–32

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)



1312

8-05

5


Data Sheet HMC7586


10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-05

6



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)


1312

8-05

7



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)



1312

8-05

8

Figure 58. Input IP3 vs. RF Frequency at Various IDLNA Values,


10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-05

9



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)


1312

8-06

0



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)



1312

8-06

1



HMC7586 Data Sheet


40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-06

2



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)


1312

8-06

3



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)



1312

8-06

4



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-06

5



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)


1312

8-06

6



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)



1312

8-06

7



Data Sheet HMC7586


0

–2

–4

–6

–10

–12

–8

–16

–14

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

P1dB

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-06

8



0

–2

–4

–6

–10

–12

–8

–1471.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

P1dB

(dB

m)

RF FREQUENCY (GHz)


1312

8-07

1



HMC7586 Data Sheet


LOWER SIDEBAND SELECTED, IF = 2000 MHz 16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-07

4


16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)


1312

8-07

5


20

16

12

8

4

0

–8

–16

–4

–12

–2071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)



1312

8-07

6

Figure 72. Conversion Gain vs. RF Frequency at Various IDLNA Values,


16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-07

7


16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)


1312

8-07

8


20

16

12

8

4

0

–8

–16

–4

–12

–2071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)



1312

8-07

9



Data Sheet HMC7586


0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-08

0



0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)


1312

8-08

1



0

–4

–8

–12

–16

–20

–24

–28

–36

–32

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)



1312

8-08

2

Figure 78. Image Rejection vs. RF Frequency at Various IDLNA Values,


0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-08

3



0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)


1312

8-08

4



0

–4

–8

–12

–16

–20

–24

–28

–36

–32

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)



1312

8-08

5



HMC7586 Data Sheet


10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-08

6



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)


1312

8-08

7



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)



1312

8-08

8



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-08

9



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)


1312

8-09

0



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)



1312

8-09

1



Data Sheet HMC7586


40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-09

2



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)


1312

8-09

3



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)



1312

8-09

4



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-09

5



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)


1312

8-09

6



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)



1312

8-09

7



HMC7586 Data Sheet


0

–2

–4

–6

–10

–12

–8

–16

–14

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

P1dB

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-09

8



0

–2

–4

–6

–10

–12

–8

–1471.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

P1dB

(dB

m)

RF FREQUENCY (GHz)


1312

8-10

1



Data Sheet HMC7586


NOISE FIGURE PERFORMANCE, LOWER SIDEBAND SELECTED 10

0

1

2

3

4

5

6

7

8

9

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

NO

ISE

FIG

UR

E (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-10

4

Figure 96. Noise Figure vs. RF Frequency at Various Temperatures, LO = 2 dBm, IF = 500 MHz, VDLNA = 3 V

10

0

1

2

3

4

5

6

7

8

9

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

NO

ISE

FIG

UR

E (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-10

5


10

0

1

2

3

4

5

6

7

8

9

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

NO

ISE

FIG

UR

E (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-10

6


10

0

1

2

3

4

5

6

7

9

8

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

NO

ISE

FIG

UR

E (d

B)

RF FREQUENCY (GHz)

LO = –2dBmLO = 0dBmLO = +2dBmLO = +4dBmLO = +6dBmLO = +8dBm

1312

8-10

7

Figure 99. Noise Figure vs. RF Frequency at Various LO Powers, IF = 500 MHz, VDLNA = 3 V

10

0

1

2

3

4

5

6

7

9

8

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

NO

ISE

FIG

UR

E (d

B)

RF FREQUENCY (GHz)


1312

8-10

8


10

0

1

2

3

4

5

6

7

9

8

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

NO

ISE

FIG

UR

E (d

B)

RF FREQUENCY (GHz)


1312

8-10

9


HMC7586 Data Sheet


AMPLITUDE BALANCE PERFORMANCE, LOWER SIDEBAND SELECTED 1.0

0.8

0.6

0.4

0

–0.4

0.2

–1.0

–0.8

–0.2

–0.6

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

AM

PLIT

UD

E B

ALA

NC

E (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-11

0

Figure 102. Amplitude Balance vs. RF Frequency at Various Temperatures, RFIN = −20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V

1.0

0.8

0.6

0.4

0

–0.4

0.2

–1.0

–0.8

–0.2

–0.6

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

AM

PLIT

UD

E B

ALA

NC

E (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-11

1

Figure 103. Amplitude Balance vs. RF Frequency at Various Temperatures,


1.0

0.8

0.6

0.4

0

–0.4

0.2

–1.0

–0.8

–0.2

–0.6

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

AM

PLIT

UD

E B

ALA

NC

E (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-1 1

2


1.0

0.8

0.6

0.4

0

–0.4

0.2

–1.0

–0.8

–0.2

–0.6

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

AM

PLIT

UD

E B

ALA

NC

E (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-11

3


1.0

0.8

0.6

0.4

0

–0.4

0.2

–1.0

–0.8

–0.2

–0.6

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

AM

PLIT

UD

E B

ALA

NC

E (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-11

4

Figure 106. Amplitude Balance vs. RF Frequency at Various Temperatures,


1.0

0.8

0.6

0.4

0

–0.4

0.2

–1.0

–0.8

–0.2

–0.6

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

AM

PLIT

UD

E B

ALA

NC

E (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-11

5


Data Sheet HMC7586


PHASE BALANCE PERFORMANCE, LOWER SIDEBAND SELECTED 8

4

–10

–8

0

6

–4

–6

–2

2

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

PHA

SE B

ALA

NC

E (D

egre

es)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-11

6

Figure 108. Phase Balance vs. RF Frequency at Various Temperatures, RFIN = −20 dBm, LO = 2 dBm, IF = 500 MHz, VDLNA = 4 V

6

4

–10

–8

0

–4

–6

–2

2

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

PHA

SE B

ALA

NC

E (D

egre

es)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-11

7


8

4

–10

–8

0

6

–4

–6

–2

2

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

PHA

SE B

ALA

NC

E (D

egre

es)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-11

8


15

–10

5

–5

0

10

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

PHA

SE B

ALA

NC

E (D

egre

es)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-11

9


10

8

4

–10

–8

0

6

–4

–6

–2

2

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

PHA

SE B

ALA

NC

E (D

egre

es)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-12

0


8

4

–10

–8

0

6

–4

–6

–2

2

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

PHA

SE B

ALA

NC

E (D

egre

es)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-12

1


HMC7586 Data Sheet


UPPER SIDEBAND SELECTED, IF = 500 MHz 16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-12

2


16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)


1312

8-12

3


20

16

12

8

4

0

–8

–16

–4

–12

–2071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)



1312

8-12

4


16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-12

5


16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)


1312

8-12

6


20

16

12

8

4

0

–8

–16

–4

–12

–2071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)



1312

8-12

7


Data Sheet HMC7586


0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-12

8



0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)


1312

8-12

9



0

–4

–8

–12

–16

–20

–24

–28

–36

–32

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)



1312

8-13

0


0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-13

1



0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)


1312

8-13

2



0

–4

–8

–12

–16

–20

–24

–28

–36

–32

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)



1312

8-13

3



HMC7586 Data Sheet


10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-13

4



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)


1312

8-13

5



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)



1312

8-13

6



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-13

7



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)


1312

8-13

8



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)



1312

8-13

9



Data Sheet HMC7586


40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-14

0



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)


1312

8-14

1



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)



1312

8-14

2



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-14

3



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)


1312

8-14

4



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)



1312

8-14

5



HMC7586 Data Sheet


0

–2

–4

–6

–10

–12

–8

–18

–16

–14

71.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

P1dB

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-14

6



0

–2

–4

–6

–10

–12

–8

–1471.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

P1dB

(dB

m)

RF FREQUENCY (GHz)


1312

8-14

9



Data Sheet HMC7586


UPPER SIDEBAND SELECTED, IF = 1000 MHz 16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-15

2


16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)


1312

8-15

3


20

16

12

8

4

0

–8

–16

–4

–12

–2071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)



1312

8-15

4



16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-15

5


16

14

12

10

8

6

4

2

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)


1312

8-15

6

Figure 144. Conversion Gain vs. RF Frequency at Various LO Powers,


20

16

12

8

4

0

–8

–16

–4

–12

–2071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

CO

NVE

RSI

ON

GA

IN (d

B)

RF FREQUENCY (GHz)



1312

8-15

7



HMC7586 Data Sheet


0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-15

8



0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)


1312

8-15

9



0

–4

–8

–12

–16

–20

–24

–28

–36

–32

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)



1312

8-16

0



0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-16

1



0

–4

–8

–12

–16

–20

–24

–32

–36

–28

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)


1312

8-16

2



0

–4

–8

–12

–16

–20

–24

–28

–36

–32

–4071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IMA

GE

REJ

ECTI

ON

(dB

c)

RF FREQUENCY (GHz)



1312

8-16

3



Data Sheet HMC7586


10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-16

4



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)


1312

8-16

5



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)



1312

8-16

6



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-16

7



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)


1312

8-16

8



10

8

6

4

2

0

–2

–6

–8

–4

–1071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP3

(dB

m)

RF FREQUENCY (GHz)



1312

8-16

9



HMC7586 Data Sheet


40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-17

0



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)


1312

8-17

1



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)



1312

8-17

2


40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)

TA = +85°CTA = +25°CTA = –55°C

1312

8-17

3



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)


1312

8-17

4



40

36

32

28

24

20

16

8

4

12

071.0 71.5 72.0 72.5 73.0 73.5 74.0 74.5 75.0 75.5 76.0

IP2

(dB

m)

RF FREQUENCY (GHz)



1312

8-17

5

Figure 163. Input IP2 vs. RF Frequency at Various IDLNA Values, RFIN = −20 dBm, LO = 2

71 GHz to 76 GHz, E-Band I/Q Downconverter Data Sheet HMC7586€¦ · 71 GHz to 76 GHz, E-Band I/Q Downconverter Data Sheet HMC7586 Rev. A Document Feedback Information furnished

Text of 71 GHz to 76 GHz, E-Band I/Q Downconverter Data Sheet HMC7586€¦ · 71 GHz to 76 GHz, E-Band I/Q...

ME7220A RADAR TEST SYSTEM 76-77 GHz OPERATION MANUALdl.cdn-anritsu.com/en-us/test-measurement/files/Manuals/Operation... · Frequency Range 76 GHz to 77 GHz (other frequency range

2.4 GHz Spectrum Analyzer Adapter - QSL.net GHz Spectrum Analyzer Adap… · 2.4 GHz Spectrum Analyzer Adapter ... mixer's IF output will be in the VHF frequency ... The MMDS downconverter

RADIO TEST REPORT - FCC ID€¦ · Test report No. : 11822931H-A Page : ... DENSO CORPORATION ... is the 76 GHz - 77 GHz vehicle-mounted field

MICROWAVE ASSEMBLIES, SYSTEMS AND TECHNOLOGIES · Quadrature IF Mixer 26 AGC Module 26 3–21 GHz Three-Channel Downconverter 27 Miniature Downconverter 29 Tri-Band Downconverter

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17.5 GHz to 24 GHz, GaAs, MMIC, I/Q Downconverter Data Sheet … · 2019-06-05 · 17.5 GHz to 24 GHz, GaAs, MMIC, I/Q Downconverter Data Sheet ADMV1012 Rev. A Document Feedback Information

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INTERNATIONAL TELECOMMUNICATION UNION!PDF-… · itu-r m.1452-1 1 itu-r m.1452-1 ˆ˙ ˘ˇ itu-r 205/5 ) (2009-2000) " &’ˇ 4 .- ˙ b ghz 81-77˜ ghz 77-76˜ ghz 61-60 < ab ghz

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76 GHz and above Our experiences so far - rfdesign.co.uk and above - web versio… · 76 GHz and above Our experiences so far ... power from a basic transverter 17. ... antenna alignment

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Systems characteristics of automotive radars operating in ...!PDF-E.pdf · bands 76-77 GHz and 77-81 GHz Automotive radar applications are evolving from providing additional comfort

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71 GHz to 76 GHz, E-Band I/Q Downconverter Data Sheet HMC7586€¦ · 71 GHz to 76 GHz, E-Band I/Q Downconverter Data Sheet HMC7586 Rev. A Document Feedback Information furnished

Text of 71 GHz to 76 GHz, E-Band I/Q Downconverter Data Sheet HMC7586€¦ · 71 GHz to 76 GHz, E-Band I/Q...