HMC6001_技术文档

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HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

Fꢆꢃꢁuꢅꢆs

typꢂꢀꢃꢄ appꢄꢂꢀꢃꢁꢂons

The HMC6001 is ideal for:

Support for IEEE Channel Plan

Receiver Gain: 2 - 67 dB

•ꢀ WiGig Single Carrier Modulations

•ꢀ 60 GHz ISM Band Data Transmitter

•ꢀ Multi-Gbps Data Communications

•ꢀ High Deﬁnition Video Transmission

•ꢀ RFID

Noise Figure: 6.0 dB

Integrated Image Reject Filter

Integrated Frequency Synthesizer

Programmable IF Gain Blocks

Universal Analog I/Q Baseband Interface

Integrated AM and FM Demodulator

Three-Wire Serial Digital Interface

Die Size: 3.452 x 1.852 mm

Gꢆnꢆꢅꢃꢄ Dꢆsꢀꢅꢂpꢁꢂon

Funꢀꢁꢂonꢃꢄ Dꢂꢃgꢅꢃm

The HMC6001 is

a complete mmWave super-

heterodyne receiver chip including LNA, image

reject ﬁlter, RF to IF downconverter, IF ﬁlter, I/Q

downconverter, and frequency synthesizer.

The

receiver operates from 57 to 64 GHz with up to 1.8 GHz

of double sided modulation bandwidth. An integrated

synthesizer provides tuning in 500 or 540 MHz step

sizes depending on the choice of external reference

clock. Support for a wide variety of modulation formats

is provided through a universal analog baseband IQ

interface. The receiver chip supports all single carrier

WiGig modulations and optionally supports dedicated

FSK/MSK modulation formats for lower cost and lower

power serial data links without the need for high speed

data converters. LNA and adjustable gain IF stages

provide 6 dB typical noise ﬁgure with AGC support.

Together with the HMC6000, a complete transmit/

receive chipset is provided for multi-Gbps operation in

the unlicensed 60 GHz ISM band.

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com

Application Support: Phone: 978-250-3343 or apps@hittite.com

1

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

tꢃbꢄꢆ 1. eꢄꢆꢀꢁꢅꢂꢀꢃꢄ Spꢆꢀꢂﬁꢀꢃꢁꢂons, ta = +25° c, Sꢆꢆ tꢆsꢁ condꢂꢁꢂons

Parameter

Frequency Range

Condition

Min.

57

Typ.

Max.

64

Units

GHz

dB

Frequency Step Size

Modulation Bandwidth

Max Gain

308.5714 MHz Ref Clk

285.714 MHz Ref Clk

0.54

0.50

1.8

67

Max BW setting, 5dB BW, double-sided

Pout of all 4 baseband outputs minus Pin

63

69

Gain Control Range

Gain Step Size

65

dB

1

dB

Gain Change Settling Time

Noise Figure (<57.5 GHz)

Noise Figure (>57.5 GHz)

Input IP3

3

μs

at Max Gain

at Min Gain

6

5

7

8

7

dB

6

dB

-27

-36

>35

27

dBm

dB

Input P1dB

Image Rejection

Sideband Suppression

Phase Noise @ 100 kHz

Phase Noise @ 1 MHz

Phase Noise @ 10 MHz

Phase Noise @ 100 MHz

Phase Noise @ 1 GHz

PLL Loop BW

14

dBc

-72

-86

-111

-125

-127

200

< 6

0.610

dBc/Hz

kHz

Internal Loop Filter

Synthesizer Settling Time

Power Dissipation

μs

W

tꢃbꢄꢆ 2. tꢆsꢁ condꢂꢁꢂons

Reference frequency

308.5714 MHz

Temperature

+25°C

Gain Setting

Max

Input Signal Level

IF Bandwidth

-65 dBm

Max

Input Impedance

Output Impedance

50Ω Single-Ended

100Ω Differential

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com

Application Support: Phone: 978-250-3343 or apps@hittite.com

2

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

tꢃbꢄꢆ 3. rꢆꢀommꢆndꢆd Opꢆꢅꢃꢁꢂon condꢂꢁꢂons

Description

Symbol

GND

Min

Typical

0

Max

Units

Vdc

Analog Ground

VCC_BUF

VCC_REG

VCC_IF

VCC_TRIP

VCC_DIV

VCC_MIX

VCC_LNA

2.565

1.3

2.7

2.835

1.48

Vdc

Power Supplies

VDDD

VDD_PLL

1.35

Vdc

V

Input Voltage Ranges

DATA

ENABLE

CLK

Serial Digital Interface – Logic High

0.9

1.2

0.1

1.4

0.3

RESET

DATA

ENABLE

CLK

Serial Digital Interface – Logic Low

Reference Clock

-0.05

V

RESET

3.3 or 2.5V

LVPECL/LVDS

1.2V CMOS

REFCLKP

REFCLKM

BB_IM

BB_IP

BB_QM

BB_QP

Baseband I and Q [1]

10

50

200

+85

mVp-p

Baseband I and Q Common Mode [4]

Temperature

1.3

V

C

-40

[1] Baseband voltage at each of the 4 baseband outputs

[2] DC voltage present at all 4 baseband outputs

tꢃbꢄꢆ 4. Poꢇꢆꢅ consumpꢁꢂon

Voltage

Typical Current (mA)

Typical Power Consumption (Watts)

VCC_BUF

(2.7Vdc)

(1.35Vdc)

67

13

37

47

34

15

11

1

VCC_REG

VCC_IF

VCC_TRIP

VCC_DIV

VCC_MIX

VDD_LNA

VDDD

0.60

0.01

VDD_PLL

7

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com

Application Support: Phone: 978-250-3343 or apps@hittite.com

3

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

Fꢂguꢅꢆ 1. Gꢃꢂn ꢈs.

Fꢂguꢅꢆ 2. Gꢃꢂn ꢈs.

Fꢅꢆquꢆnꢀy aꢀꢅoss voꢄꢁꢃgꢆ^[1]

75

Fꢅꢆquꢆnꢀy Oꢈꢆꢅ tꢆmpꢆꢅꢃꢁuꢅꢆ^[1]

75

70

65

60

55

70

65

60

55

57.2

58.3

59.4

60.5

61.6

62.6

63.7

57.2

58.3

59.4

60.5

61.6

62.6

63.7

FREQUENCY (GHz)

Min bias

Typical bias

Max bias

+25C

+85C

-40C

Fꢂguꢅꢆ 3. Noꢂsꢆ Fꢂguꢅꢆ ꢈs. Gꢃꢂn @

Fꢂguꢅꢆ 4. Noꢂsꢆ Fꢂguꢅꢆ ꢈs.

60.48GHz^[2]

Fꢅꢆquꢆnꢀy Oꢈꢆꢅ tꢆmpꢆꢅꢃꢁuꢅꢆ^[1]

10

40

35

30

25

20

15

10

5

8

6

4

2

0

1

2

3

4

5

6

7

8

9

10 11 12 13 14 15

57.2

58.3

59.4

60.5

61.6

IF ATTENUATION SETTING

FREQUENCY (GHz)

0dB BB Attn

6dB BB Attn

12dB BB Attn

18dB BB Attn

24dB BB Attn

30dB BB Attn

36dB BB Attn

+25C

+85C

-40C

Fꢂguꢅꢆ 5. Noꢂsꢆ Fꢂguꢅꢆ ꢈs.

Fꢂguꢅꢆ 6. inpuꢁ P1dB ꢈs.

Fꢅꢆquꢆnꢀy aꢀꢅoss voꢄꢁꢃgꢆ^[1]

-30

Fꢅꢆquꢆnꢀy aꢀꢅoss voꢄꢁꢃgꢆ^[1]

10

8

6

4

2

0

-35

-40

-45

57.2

58.3

59.4

60.5

61.6

62.6

63.7

57.2

58.3

59.4

60.5

61.6

FREQUENCY (GHz)

Min bias

Typical bias

Max bias

Min bias

Typical bias

Max bias

[1] Maximum gain setting

[2] Fine BB Attn = 0dB

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com

Application Support: Phone: 978-250-3343 or apps@hittite.com

4

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

Fꢂguꢅꢆ 7. inpuꢁ P1dB ꢈs.

Fꢂguꢅꢆ 8. inpuꢁ P1dB ꢈs.

Fꢅꢆquꢆnꢀy ꢃnd Gꢃꢂn

-30

Fꢅꢆquꢆnꢀy Oꢈꢆꢅ tꢆmpꢆꢅꢃꢁuꢅꢆ^[1]

-30

-35

-40

-45

-50

-55

-35

-40

-45

57.2

58.3

59.4

60.5

61.6

62.6

63.7

57.2

58.3

59.4

60.5

61.6

62.6

63.7

FREQUENCY (GHz)

IF Attn=min, BB Attn=5dB

+25C

+85C

-40C

IF Attn=min, BB Attn=max

IF Attn=max, BB Attn=5dB

IF Attn=max, BB Attn=max

Fꢂguꢅꢆ 9. inpuꢁ iP3 ꢈs.

Fꢂguꢅꢆ 10. inpuꢁ iP3 ꢈs.

Fꢅꢆquꢆnꢀy aꢀꢅoss voꢄꢁꢃgꢆ^[1]

-20

Fꢅꢆquꢆnꢀy Oꢈꢆꢅ tꢆmpꢆꢅꢃꢁuꢅꢆ^[1]

-10

-15

-20

-25

-30

-35

-40

-25

-30

-35

-40

57.2

58.3

59.4

60.5

61.6

62.6

63.7

57.2

58.3

59.4

60.5

61.6

62.6

63.7

FREQUENCY (GHz)

Min bias

Typical bias

Max bias

+25C

+85C

-40C

Fꢂguꢅꢆ 11. inpuꢁ iP3 ꢈs. Gꢃꢂn @

GHz^[2]

60.48

Fꢂguꢅꢆ 12. Bꢃsꢆbꢃnd

aꢁꢁꢆnuꢃꢁꢂon Oꢈꢆꢅ tꢆmpꢆꢅꢃꢁuꢅꢆ

0

-5

-10

-15

-20

-25

-30

-35

-40

-45

-50

-55

-60

-10

-15

-20

-25

-30

-35

-40

-45

0

1

2

3

4

5

6

7

8

9

10 11 12 13 14 15

1

6

11

16

21

26

31

36

41

IF ATTENUATION SETTING

BASEBAND SETTING (dB)

0dB BB Attn

6dB BB Attn

12dB BB Attn

18dB BB Attn

24dB BB Attn

30dB BB Attn

36dB BB Attn

+25C

+85C

-40C

[1] Maximum gain setting

[2] Fine BB Attn = 0dB

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com

Application Support: Phone: 978-250-3343 or apps@hittite.com

5

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

Fꢂguꢅꢆ 13. iF aꢁꢁꢆnuꢃꢁꢂon ꢈs.

Fꢂguꢅꢆ 14. iF aꢁꢁꢆnuꢃꢁꢂon ꢈs.

aꢁꢁꢆnuꢃꢁoꢅ Sꢆꢁꢁꢂng ꢈs Fꢅꢆquꢆnꢀy

aꢁꢁꢆnuꢃꢁoꢅ Sꢆꢁꢁꢂng oꢈꢆꢅ tꢆmpꢆꢅꢃꢁuꢅꢆ^[3]

0

-5

-10

-15

-20

-25

-30

-5

-10

-15

-20

-25

-30

0

1

2

3

4

5

6

7

8

9

10 11 12 13 14 15

0

1

2

3

4

5

6

7

8

9

10 11 12 13 14 15

IF ATTENUATION SETTING

57.24 GHz

60.48 GHz

63.72 GHz

+25C

+85C

-40C

Fꢂguꢅꢆ 15. Sꢂngꢄꢆ Sꢂdꢆd

Fꢂguꢅꢆ 16. Sꢂngꢄꢆ Sꢂdꢆd

Pꢃssbꢃnd rꢆsponsꢆ ꢈs. voꢄꢁꢃgꢆ^[4]

Pꢃssbꢃnd rꢆsponsꢆ ꢈs. tꢆmpꢆꢅꢃꢁuꢅꢆ^[4]

0

-3

-6

-9

-12

-15

-18

-21

-24

-27

-12

-15

-18

-21

-24

-27

-30

100 300 500 700 900 1100 1300 1500 1700 1900 2100

FREQUENCY OFFSET (MHz)

Min bias

Typical bias

Max bias

+25C

+85C

-40C

Fꢂguꢅꢆ 17. Sꢂngꢄꢆ Sꢂdꢆd

Fꢂguꢅꢆ 18. Sꢂngꢄꢆ Sꢂdꢆd

Pꢃssbꢃnd rꢆsponsꢆ ꢈs. iF Gꢃꢂn^[4]

Pꢃssbꢃnd rꢆsponsꢆ ꢈs. Fꢅꢆquꢆnꢀy^[5]

0

-3

-6

-9

-12

-15

-18

-21

-24

-27

-12

-15

-18

-21

-24

-27

-30

100 300 500 700 900 1100 1300 1500 1700 1900 2100

FREQUENCY OFFSET (MHz)

Min Gain

Mid Gain

Max Gain

57.24 GHz

60.48 GHz

63.72 GHz

[3] 60.48 GHz Carrier

[4] 60.48 GHz Carrier, Maximum BW

[5] Maximum BW

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com

Application Support: Phone: 978-250-3343 or apps@hittite.com

6

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

Fꢂguꢅꢆ 19. Sꢂngꢄꢆ Sꢂdꢆd

Fꢂguꢅꢆ 20. Sꢂngꢄꢆ Sꢂdꢆd Hꢂgh Pꢃss Fꢂꢄꢁꢆꢅ

rꢆsponsꢆ ꢈs. HPF Sꢆꢁꢁꢂng^[3]

Pꢃssbꢃnd rꢆsponsꢆ Bw ꢈs. Bw Sꢆꢁꢁꢂng^[3]

0

-5

-3

-10

-15

-20

-25

-30

-35

-40

-45

-50

-55

-6

-9

-12

-15

-18

-21

-24

-27

-30

100 300 500 700 900 1100 1300 1500 1700 1900 2100

0.3 0.5 0.8

1

1.3 1.5 1.8

2

2.2 2.5 2.7

3

FREQUENCY OFFSET (MHz)

Min BW

Mid BW

Max BW

800 kHz

1.0 MHz

1.5 MHz

Fꢂguꢅꢆ 21. Sꢂngꢄꢆ Sꢂdꢆd Hꢂgh Pꢃss Fꢂꢄꢁꢆꢅ

rꢆsponsꢆ ꢈs tꢆmpꢆꢅꢃꢁuꢅꢆ^[6]

Fꢂguꢅꢆ 22. Sꢂdꢆbꢃnd Suppꢅꢆssꢂon

ꢈs. Fꢅꢆquꢆnꢀy ꢃꢀꢅoss voꢄꢁꢃgꢆ^[1]

50

0

-5

-10

-15

-20

-25

-30

-35

-40

-45

-50

-55

40

30

20

10

0

0.3 0.5 0.8

1

1.3 1.5 1.8

2

2.2 2.5 2.7

3

57.2

58.3

59.4

60.5

61.6

62.6

63.7

FREQUENCY OFFSET (MHz)

FREQUENCY (GHz)

+25C

+85C

-40C

Min bias

Typical bias

Max bias

Fꢂguꢅꢆ 23. Sꢂdꢆbꢃnd Suppꢅꢆssꢂon

Fꢂguꢅꢆ 24. Sꢂdꢆbꢃnd Suppꢅꢆssꢂon

ꢈs. Fꢅꢆquꢆnꢀy ꢃnd iF Gꢃꢂn

50

ꢈs. Fꢅꢆquꢆnꢀy oꢈꢆꢅ tꢆmpꢆꢅꢃꢁuꢅꢆ^[1]

50

40

30

20

10

0

40

30

20

10

0

57.2

58.3

59.4

60.5

61.6

62.6

63.7

57.2

58.3

59.4

60.5

61.6

62.6

63.7

FREQUENCY (GHz)

+25C

+85C

-40C

Min Gain

Mid Gain

Max Gain

[1] Maximum gain setting

[3] 60.48 GHz Carrier

[6] 60.48 GHz Carrier, 1.5MHz HPF Setting

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com

Application Support: Phone: 978-250-3343 or apps@hittite.com

7

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

Fꢂguꢅꢆ 25. i/Q ampꢄꢂꢁudꢆ ꢃnd Phꢃsꢆ duꢅꢂng

Fꢂnꢆ Bꢃsꢆbꢃnd aꢁꢁꢆnuꢃꢁoꢅ ꢀhꢃngꢆ^[7]

Fꢂguꢅꢆ 26. i/Q ampꢄꢂꢁudꢆ ꢃnd Phꢃsꢆ duꢅꢂng

coꢃꢅsꢆ Bꢃsꢆbꢃnd aꢁꢁꢆnuꢃꢁoꢅ ꢀhꢃngꢆ^[8]

30

25

20

15

10

5

30

25

20

15

10

5

3

2

1

0

-1

-2

-3

-1

-2

-3

0

1e-5

2e-5

3e-5

4e-5

0

1e-5

2e-5

3e-5

4e-5

TIME (SEC)

I data

Q data

Amp Envelope

I data

Q data

Amp Envelope

I/Q Phase Delta

Fꢂguꢅꢆ 27. i/Q ampꢄꢂꢁudꢆ ꢃnd Phꢃsꢆ duꢅ-

ꢂng iF aꢁꢁꢆnuꢃꢁoꢅ ꢀhꢃngꢆ^[9]

30

25

20

15

10

5

3

2

1

0

-1

-2

-3

0

1e-5

2e-5

3e-5

4e-5

TIME (SEC)

I data

Q data

Amp Envelope

I/Q Phase Delta

[7] 60.48 GHz Carrier, ﬁne baseband attenuator change from 0 to 5dB

[8] 60.48 GHz Carrier, coarse baseband attenuator change from 12 to 24dB

[9] 60.48 GHz Carrier, IF attenuator change from setting 0 to 7

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com

Application Support: Phone: 978-250-3343 or apps@hittite.com

8

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

tꢃbꢄꢆ 5. absoꢄuꢁꢆ Mꢃxꢂmum rꢃꢁꢂngs

RF Input Power

0 dBm

RF DC Input

3.8 Vdc

2.85 Vdc

1.6 Vdc

VDD = 2.7 V

VCC = 2.7 V

VDD_PLL = 1.35 V

VDDD = 1.35 V

GND

0

50 mV

Power Dissipation

0.760 W

Serial Digital Interface Input Voltage 1.5 Vdc

Ref CLK Input (AC coupled)(each)

Baseband Outputs (BB, FM)

Storage Temperature

0.75 Vp-p

-55°C to 150°C

-40°C to 85°C

Operating Temperature

Ouꢁꢄꢂnꢆ Dꢅꢃꢇꢂng

NOTES:

1. ALL DIMENSIONS ARE IN INCHES [MM]

2. DIE THICKNESS IS .028” [0.711] +/- .001” [.025]

3. BOND PAD METALLIZATION: AL

tꢃbꢄꢆ 6. Dꢂꢆ Pꢃꢀkꢃgꢂng infoꢅmꢃꢁꢂon

Standard

Alternate

4. OVERALL DIE SIZE .002 [0.051]

VR-33CC-02-X4 GEL_PAK

[1]

[1] For alternate packaging information contact Hittite Microwave

Corporation.

tꢃbꢄꢆ 7. Dꢂꢆ Pꢃd Dꢂmꢆnsꢂons

Pads

Pad Size

Pad Opening

1, 3

0.0043 [0.109] x 0.0043 [0.109]

0.0028 [0.070] x 0.0024 [0.060]

0.0040 [0.101] x 0.0040 [0.101]

0.0041 [0.103] x 0.0041 [0.103]

0.0025 [0.064] x 0.0021 [0.054]

0.0037 [0.095] x 0.0037 [0.095]

2

4 - 45

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com

Application Support: Phone: 978-250-3343 or apps@hittite.com

9

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

tꢃbꢄꢆ 8. Pꢃd Dꢆsꢀꢅꢂpꢁꢂons

Pad Number

Function

Description

1, 3, 7, 9, 11, 14

16, 18, 21, 22, 24,

26, 28, 30, 31, 35,

36, 41, 45

GND

Analog Ground

2

RFIN

LNA input - AC coupled - matched to 50Ω

4

ENABLE

CLK

Serial digital interface enable (1.2V CMOS) - 50kΩ

Serial digital interface clock (1.2V CMOS) - 50kΩ

Serial digital interface data (1.2V CMOS) - 50kΩ

Baseband negative quadrature output – DC coupled 1.3Vcm - 50Ω

Baseband positive quadrature output – DC coupled 1.3Vcm - 50Ω

1.35 supply (serial data interface)

5

6

DATA

8

VOUT_QM

VOUT_QP

VDDD

10

12

13

VCC_BUF

VOUT_IM

VOUT_IP

SCANOUT

RESET

2.7V supply (BB VGA and output buffers)

Baseband negative in-phase output – DC coupled 1.3Vcm - 50Ω

Baseband positive in-phase output – DC coupled 1.3Vcm - 50Ω

Serial digital interface out (1.2V CMOS) - 50kΩ

Asynchronous reset-all registers (1.2V CMOS, active high) - 50kΩ

1.35 supply (VCO)

15

17

19

20

23

VDD_PLL

REFCLKM

REFCLKP

VCC_REG

NC

25

Xtal REF CLK Minus - AC or DC coupled - 50Ω

2.7V supply (VCO)

27

29

32, 33, 38, 39, 43

Factory test points. Leave ﬂoating. Do not connect.

2.7V supply (Divider)

34

37

40

42

44

VCC_DIV

VCC_TRIP

VCC_IF

2.7V supply (Tripler)

2.7V supply (IF)

VCC_MIX

VCC_LNA

2.7V supply (Mixer)

2.7V supply (LNA)

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com

Application Support: Phone: 978-250-3343 or apps@hittite.com

10

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

thꢆoꢅy of Opꢆꢅꢃꢁꢂon

An integrated frequency synthesizer creates a low-phase noise LO between 16.3 and 18.3 GHz. The step size of

the synthesizer equates to 540MHz steps at RF when used with 308.5714 MHz reference crystal (compatible with

the IEEE channels of the ISM band) or 500 MHz steps if used with a 285.714 MHz reference crystal. A 57 to 64 GHz

signal enters the chip through a single-ended LNA input. The LO is multiplied by three and mixed with the LNA output

to downconvert to an 8 to 9.1 GHz sliding IF. An integrated notch ﬁlter removes the image frequency. The IF signal

is ﬁltered and ampliﬁed with 17 dB of variable gain. If the chip is conﬁgured for IQ baseband output, the IF signal is

feds into a quadrature demodulator using the LO/2 to downconvert to baseband. There are also options to use on-

chip demodulators capabable of to demodulating AM/FM/FSK/MSK waveforms. Contact Hittite application support

for further guidance and application notes if interested in these modes.

The phase noise and quadrature balance of the HMC6001 is sufficient to demodulate up to 16QAM modulation for

high data rate operation.

There are no special power sequencing requirements for the HMC6001; all voltages are to be applied simultaneously.

rꢆgꢂsꢁꢆꢅ aꢅꢅꢃy assꢂgnmꢆnꢁs ꢃnd Sꢆꢅꢂꢃꢄ inꢁꢆꢅfꢃꢀꢆ

The register arrays for both the receiver and transmitter are organized into 16 rows of 8 bits. Using the serial interface,

the arrays are written or read one row at a time as shown in Figure 28 and Figure 29, respectively. Figure 28 shows

the sequence of signals on the ENABLE, CLK, and DATA lines to write one 8-bit row of the register array. The ENABLE

line goes low, the ﬁrst of 18 data bits (bit 0) is placed on the DATA line, and 2 ns or more after the DATA line stabilizes,

the CLK line goes high to clock in data bit 0. The DATA line should remain stable for at least 2 ns after the rising edge

of CLK.

The Rx IC will support a serial interface running up to several hundred MHz, and the interface is 1.2V CMOS levels.

A write operation requires 18 data bits and 18 clock pulses, as shown in Figure 29. The 18 data bits contain the 8-bit

register array row data (LSB is clocked in ﬁrst), followed by the register array row address (ROW0 through ROW15,

000000 to 001111, LSB ﬁrst), the Read/Write bit (set to 1 to write), and ﬁnally the Rx chip address 111, LSB ﬁrst).

Note that the register array row address is 6 bits, but only four are used to designate 16 rows, the two MSBs are 0.

After the 18th clock pulse of the write operation, the ENABLE line returns high to load the register array on the IC; prior

to the rising edge of the ENABLE line, no data is written to the array. The CLK line should have stabilized in the low

state at least 2 ns prior to the rising edge of the ENABLE line.

Fꢂguꢅꢆ 28. Timing Diagram for writing a row of the Receiver Serial Interface

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343

Fax: 978-250-3373

Order On-line at www.hittite.com

11

Application Support: Phone: 978-250-3343 or apps@hittite.com

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

Fꢂguꢅꢆ 29. Timing Diagram for reading a row of the Receiver Serial Interface

tꢃbꢄꢆ 9. rꢆꢀꢆꢂꢈꢆꢅ rꢆgꢂsꢁꢆꢅ aꢅꢅꢃy assꢂgnmꢆnꢁs

Register Array Row & Bit

Internal Signal Name Signal Function

ROW0

ROW0<7>

ask_pwrdn

Active high to power down ASK demodulator

ROW0<6>

bbamp_pwrdn_i

bbamp_pwrdn_q

divider_pwrdn

Active high to power down I-channel baseband ampliﬁer

Active high to power down Q-channel baseband ampliﬁer

Active high to power down local oscillator divider

ROW0<5>

ROW0<4>

Active high to power down one of three on-chip bandgap refs (IF) and

associated mux

ROW0<3>

if_bgmux_pwrdn

ROW0<2>

ROW0<1>

ROW0<0>

ROW1

ifmix_pwrdn_i

ifmix_pwrdn_q

ifvga_pwrdn

Active high to power down I-channel IF to baseband mixer

Active high to power down Q-channel IF to baseband mixer

Active high to power down IF variable gain ampliﬁer

ROW1<7>

ROW1<6>

ROW1<5>

ROW1<4>

ipc_pwrdn

lna_pwrdn

Active high to power down on chip current reference generator

Active high to power down low noise ampliﬁer and reference

Active high to power down RF to IF mixer

rfmix_pwrdn

tripler_pwrdn

Active high to power down frequency tripler

First baseband attenuator;

ROW1<3>

ROW1<2>

bbamp_atten1_0

bbamp_atten1_1

ROW1<2:3> =

11 is 18 dB attenuation

10 is 12 dB attenuation

01 is 6 dB attenuation

00 is 0 dB attenuation

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com

Application Support: Phone: 978-250-3343 or apps@hittite.com

12

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

tꢃbꢄꢆ 9. rꢆꢀꢆꢂꢈꢆꢅ rꢆgꢂsꢁꢆꢅ aꢅꢅꢃy assꢂgnmꢆnꢁs

Register Array Row & Bit

Internal Signal Name Signal Function

Second baseband attenuator;

ROW1<1>

bbamp_atten2_0

bbamp_atten2_1

ROW1<0:1> =

11 is 18 dB attenuation

10 is 12 dB attenuation

01 is 6 dB attenuation

00 is 0 dB attenuation

ROW1<0>

ROW2

I Channel baseband ﬁne attenuator;

ROW2<7>

bbamp_attenﬁ_0

bbamp_attenﬁ_1

bbamp_attenﬁ_2

bbamp_attenfq_0

bbamp_attenfq_1

bbamp_attenfq_2

ROW2<5:7> ≥

101 is 5 dB attenuation

100 is 4 dB attenuation

011 is 3 dB attenuation

010 is 2 dB attenuation

001 is 1 dB attenuation

000 is 0 dB attenuation

ROW2<6>

ROW2<5>

ROW2<4>

ROW2<3>

Q Channel baseband ﬁne attenuator;

ROW2<2:4> ≥

101 is 5 dB attenuation

100 is 4 dB attenuation

011 is 3 dB attenuation

010 is 2 dB attenuation

001 is 1 dB attenuation

000 is 0 dB attenuation

ROW2<2>

ROW2<1>

Active high to multiplex the AM detector output into the I channel baseband

ampliﬁer input

bbamp_selask

ROW2<0>

bbamp_sigshort

Active high to short the input to the I and Q channel baseband ampliﬁers

ROW3

Selects the low pass corner of the baseband ampliﬁers;

ROW3<7>

ROW3<6>

bbamp_selbw0

bbamp_selbw1

ROW3<6:7> =

00 is ≈ 1.4 GHz

01 is ≈ 500 MHz

10 is ≈ 300 MHz

11 is ≈ 200 MHz

Selects the high pass corner of the baseband ampliﬁers;

ROW3<5>

ROW3<4>

bbamp_selfastrec

bbamp_selfastrec2

ROW3<4:5> =

00 is ≈ 800 kHz

01 is ≈ 1 MHz

10 is ≈ 1.5 MHz

ROW3<3>

ROW3<2>

ROW3<1>

ROW3<0>

ROW4

bg_monitor_sel<1>

bg_monitor_sel<0>

if_refsel

These bits are for reserved for diagnostic purposes;

ROW3<3:0> = 0011 for normal operation

lna_refsel

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com

Application Support: Phone: 978-250-3343 or apps@hittite.com

13

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

tꢃbꢄꢆ 9. rꢆꢀꢆꢂꢈꢆꢅ rꢆgꢂsꢁꢆꢅ aꢅꢅꢃy assꢂgnmꢆnꢁs

Register Array Row & Bit

ROW4<7>

ROW4<6>

ROW4<5>

ROW4<4>

ROW4<3>

ROW4<2>

ROW4<1>

ROW4<0>

ROW5

Internal Signal Name Signal Function

ifvga_bias<2>

ifvga_bias<1>

ifvga_bias<0>

ifvga_tune<4>

ifvga_tune<3>

ifvga_tune<2>

ifvga_tune<1>

not used

These bits are for biasing and IF ﬁlter alignment in the IF variable gain ampliﬁer;

ROW4<7:0> = 1001111x for normal operation

ROW5<7>

ROW5<6>

ROW5<5>

ROW5<4>

ROW5<3>

ROW5<2>

ROW5<1>

ROW5<0>

ROW6

ifvga_vga_adj<3>

ifvga_vga_adj<2>

ifvga_vga_adj<1>

ifvga_vga_adj<0>

rfmix_tune<4>

IF variable gain ampliﬁer gain control bits;

ROW5<7:4> = 0000 is highest gain

1111 is lowest gain

Attenuation is ≈ 1 dB / step, ≈ 20 dB maximum

These bits control IF ﬁlter alignment in the RF mixer;

ROW5<3:0> = 1111 for normal operation

rfmix_tune<3>

rfmix_tune<2>

rfmix_tune<1>

ROW6<7>

ROW6<6>

ROW6<5>

ROW6<4>

ROW6<3>

ROW6<2>

ROW6<1>

ROW6<0>

ROW7

tripler_bias<13>

tripler_bias<12>

tripler_bias<11>

tripler_bias<10>

tripler_bias<9>

tripler_bias<8>

tripler_bias<7>

tripler_bias<6>

These bits control the biasing of the frequency tripler;

ROW6<7:0> = 10111111 for normal operation

ROW7<7>

ROW7<6>

ROW7<5>

ROW7<4>

ROW7<3>

ROW7<2>

tripler_bias<5>

tripler_bias<4>

tripler_bias<3>

tripler_bias<2>

tripler_bias<1>

tripler_bias<0>

These bits control the biasing of the frequency tripler;

ROW7<7:2> = 011011 for normal operation

Active high to multiplex the FM detector output into the Q channel baseband

ampliﬁer input

ROW7<1>

bbamp_selfm

fm_pwrdn

ROW7<0>

ROW8

Active high to power down FM demodulator

ROW8<7>

ROW8<6>

ROW8<5>

lna_bias<2>

lna_bias<1>

lna_bias<0>

These bits control biasing of the low noise ampliﬁer;

ROW8<7:5> = 100 for normal operation

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com

Application Support: Phone: 978-250-3343 or apps@hittite.com

14

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

tꢃbꢄꢆ 9. rꢆꢀꢆꢂꢈꢆꢅ rꢆgꢂsꢁꢆꢅ aꢅꢅꢃy assꢂgnmꢆnꢁs

Register Array Row & Bit

Internal Signal Name Signal Function

ROW8<4>

not used

ROW8<4:3> = xx - not used

ROW8<3>

These bits control the Q of the IF ﬁlter in the IF variable gain ampliﬁer;

ROW8<2:0> = 000 for highest Q and highest gain.

ROW8<2>

ROW8<1>

ROW8<0>

ifvga_q_cntrl<2>

ifvga_q_cntrl<1>

ifvga_q_cntrl<0>

To reduce Q and widen bandwidth, increment ROW8<2:0> in the sequence:

001

100

101

111

ROW9

ROW9<7>

ROW9<6>

ROW9<5>

ROW9<4>

ROW9<3>

ROW9<2>

ROW9<1>

ROW9<0>

ROW10

not used

ROW9<7:0> = xxxxxxxx - not used

ROW10<7>

ROW10<6>

ROW10<5>

ROW10<4>

ROW10<3>

ROW10<2>

ROW10<1>

RDACIN<5>

RDACIN<4>

RDACIN<3>

RDACIN<2>

RDACIN<1>

RDACIN<0>

SYNRESET

VCO amplitude adjustment DAC;

ROW10<7:2> = 111100 for normal operation

ROW10<1> = 0 for normal operation

ROW10<0>

DIVRATIO<4>

Control the synthesizer divider ratio and output frequency. Refer to Tables 10

and 11 for synthesizer control details

ROW11

ROW11<7>

ROW11<6>

ROW11<5>

ROW11<4>

ROW11<3>

ROW11<2>

ROW11<1>

DIVRATIO<3>

DIVRATIO<2>

DIVRATIO<1>

DIVRATIO<0>

BAND<2>

ROW11<7:4>

Control the synthesizer divider ratio and output frequency. Refer to Tables 10

and 11 for synthesizer control details.

ROW11<3:1>

BAND<1>

Control the VCO band, and must be changed when tuning the synthesizer

output frequency. Refer to Tables 10 and 11 for synthesizer control details.

BAND<0>

These bits are for reserved for diagnostic purposes;

ROW11<0> = 1 for normal operation

ROW11<0>

REFSELDIV

ROW12

ROW12<7>

ROW12<6>

ROW12<5>

CPBIAS<2>

CPBIAS<1>

CPBIAS<0>

These bits control the synthesizer charge pump bias.

ROW12<7:5> = 010 for normal operation

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com

Application Support: Phone: 978-250-3343 or apps@hittite.com

15

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

tꢃbꢄꢆ 9. rꢆꢀꢆꢂꢈꢆꢅ rꢆgꢂsꢁꢆꢅ aꢅꢅꢃy assꢂgnmꢆnꢁs

Register Array Row & Bit

Internal Signal Name Signal Function

ROW12<4>

VRSEL<3>

VRSEL<2>

VRSEL<1>

VRSEL<0>

These bits control the width of the lock window for the synthesizer lock detector.

ROW12<4:1> = 1111 speciﬁes the widest lock window for normal operation

ROW12<3>

ROW12<2>

ROW12<1>

This bit is reserved for diagnostic purposes;

ROW12<0> = 1 for normal operation

ROW12<0>

ROW13

REFSELVCO

This bit is reserved for diagnostic purposes;

ROW13<7> = 1 for normal operation

ROW13<7>

MUXREF

ROW13<6>

ROW13<5>

DIV4

ROW13<6> = 0 for normal operation

Active high to enable DC coupling on synthesizer reference input;

ROW13<5> = 0 for normal operation

ENDC

This bit is reserved for diagnostic purposes;

ROW13<4> = 0 for normal operation

ROW13<4>

INI

ROW13<3>

ROW13<2>

ROW13<1>

ROW13<0>

ROW14

PDDIV12

PDDIV27

PDQP

Active high to power down 1.2V circuits in synthesizer divider

Active high to power down 2.7V circuits in synthesizer divider

Active high to power down synthesizer charge pump

Active high to power down synthesizer VCO

PDVCO

Active high to power down VCO calibration comparators;

ROW14<7> = 0 for normal operation

ROW14<7>

ROW14<6>

ROW14<5>

PDCAL

MUXOUT

PDALC12

Controls multiplexing of diagnostic bits, high to read Row15<7:0>

ROW14<6> = 1 for normal operation

Active high to power down VCO automatic level control (ALC);

ROW14<5> = 1 for normal operation

Active high to load external amplitude adjustment bits for VCO

ROW14<4> = 1 for normal operation

ROW14<4>

PLOAD

ROW14<3>

ROW14<2>

ROW14<1>

ROW14<0>

ROW15

WIDE<1>

WIDE<0>

SLEW<1>

SLEW<0>

Control bits for VCO ALC loop;

ROW14<3:2> = 01 for normal operation

Controls slew rate in sub-integer N divider

ROW14<1:0> = 10 for normal operation

ROW15<7>

COMPP

COMPN

Read only bits to indicate synthesizer lock:

ROW15<7:6> = 01 indicates that the VCO control voltage is within the lock

window and the synthesizer is locked.

11 indicates the VCO control voltage above lock window 00 below lock window

10 is a disallowed state indicating an error

ROW15<6>

ROW15<5>

ROW15<4>

ROW15<3>

ROW15<2>

ROW15<1>

ROW15<0>

RDACMSB<2>

RDACMSB<1>

RDACMSB<0>

RDACMUX<0>

RDACMUX<1>

RDACMUX<2>

These bits are read only and reserved for factory diagnostic purposes.

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com

Application Support: Phone: 978-250-3343 or apps@hittite.com

16

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

Synꢁhꢆsꢂzꢆꢅ Sꢆꢁꢁꢂngs

tꢃbꢄꢆ 10. ieee chꢃnnꢆꢄs Usꢂng 308.5714 MHz rꢆfꢆꢅꢆnꢀꢆ

Frequency (GHz)

Divider Setting

Typical Band Setting

57.24

10101

001

010

011

100

101

110

111

57.78

10100

58.32 (IEEE CH 1)

58.86

10011

10010

59.40

10001

10000

11111

59.94

60.48 (IEEE CH 2)

61.02

00000

00001

00010

00011

61.56

62.10

62.64 (IEEE CH 3)

63.18

00100

00101

63.72

Divide Ratio settings consist of registers ROW10 bit <0> (MSB) and ROW11 bits <4:7> (4 LSBs)

tꢃbꢄꢆ 11. 500 MHz chꢃnnꢆꢄs Usꢂng 285.7143 MHz rꢆfꢆꢅꢆnꢀꢆ

Frequency (GHz)

Divider Setting

00001

00010

00011

00100

00101

00110

Typical Band Setting

57

57.5

58

000

001

010

011

100

101

110

111

58.5

59

59.5

60

00111

60.5

61

01000

01001

01010

01011

61.5

62

62.5

63

01100

01101

63.5

64

01110

01111

Divide Ratio settings consist of registers ROW10 bit <0> (MSB) and ROW11 bits <4:7> (4 LSBs)

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com

Application Support: Phone: 978-250-3343 or apps@hittite.com

17

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

tꢃbꢄꢆ 12. Pꢃd Dꢆsꢀꢅꢂpꢁꢂons

Item

Function

Pad Description

Interface Schematic

VOUT_QM

VOUT_QP

VOUT_IM

VOUT_IP

Pads are DC Coupled,

matched to 50Ω (100Ω

differential)

8, 10,13,15

Pads are AC or DC coupled.

matched to 50Ω (100Ω

differential)

REFLKM

REFCLKP

25, 27

Pad is AC Coupled, matched

to 50Ω

2

RFIN

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com

Application Support: Phone: 978-250-3343 or apps@hittite.com

18

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

tꢃbꢄꢆ 13. eꢈꢃꢄuꢃꢁꢂon Kꢂꢁ Oꢅdꢆꢅ Opꢁꢂons

Item

Part Number

Description

1

EKIT01-HMC6450

60 GHz Antenna in Package Transceiver Evaluation Kit

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343 Fax: 978-250-3373 Order On-line at www.hittite.com

Application Support: Phone: 978-250-3343 or apps@hittite.com

19

HMC6001

v02.0514

MilliMeterwave receiver ic

57 - 64 GHz

Mounꢁꢂng & Bondꢂng tꢆꢀhnꢂquꢆs foꢅ Mꢂꢄꢄꢂmꢆꢁꢆꢅꢇꢃꢈꢆ SꢂGꢆ Dꢂꢆ

The die should be attached directly to the ground plane with conductive epoxy (see HMC general Handling, Mounting,

Bonding Note).

Hꢃndꢄꢂng Pꢅꢆꢀꢃuꢁꢂons

Follow these precautions to avoid permanent damage.

Storage: All bare die are placed in either Waffle or Gel based ESD protective containers, and then sealed in an ESD

protective bag for shipment. Once the sealed ESD protective bag has been opened, all die should be stored in a dry

nitrogen environment.

Cleanliness: Handle the chips in a clean environment. DO NOT attempt to clean the chip using liquid cleaning sys-

tems.

Static Sensitivity: Follow ESD precautions to protect against ESD strikes.

Transients: Suppress instrument and bias supply transients while bias is applied. Use shielded signal and bias

cables to minimize inductive pick-up.

General Handling: Handle the chip along the edges with a sharp pair of bent tweezers or use a top side vacuum tool

to pick and place. The surface should not be touched with tweezers or ﬁngers.

Mounꢁꢂng

The chip should be mounted with electrically conductive epoxy. The mounting surface should be clean and ﬂat.

Epoxy Die Attach: Apply a minimum amount of epoxy to the mounting surface so that a ﬁllet is observed around the

perimeter of the chip once it is placed into position. Cure epoxy per the manufacturer’s recommendation.

wꢂꢅꢆ Bondꢂng

RF bonds made with 0.003” (0.076mm) x 0.0005” (0.012mm) ribbon are recommended and should be thermosonically

bonded. DC bonds of 0.001” (0.025 mm) diameter are recommended and should also be thermosonically bonded.

All bonds should be made with a nominal stage temperature of 150 °C. A minimum amount of ultrasonic energy

should be applied to achieve reliable bonds. All bonds should be as short as possible.

For price, delivery and to place orders: Hittite Microwave Corporation, 2 Elizabeth Drive, Chelmsford, MA 01824

Phone: 978-250-3343

Fax: 978-250-3373

Order On-line at www.hittite.com

20

Application Support: Phone: 978-250-3343 or apps@hittite.com


型号：	HMC6001
厂家：	ADI
描述：	HMC6001 电信电信集成电路
文件：	总22页 (文件大小：1353K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

HMC6001 [ADI]

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