Linear Technology LTM9004 Manual Download Page 6

LTM9004

6

9004fa

For more information 

www.linear.com/LTM9004

DigiTal inpuTs anD ouTpuTs

SYMBOL

PARAMETER

CONDITIONS

MIN

TYP

MAX

UNITS

Logic Outputs
OV

DD

 = 3V

C

OZ

Hi-Z Output Capacitance

OE

 = 3V (Note 6)

3

pF

I

SOURCE

Output Source Current

V

OUT 

= 0V

50

mA

I

SINK

Output Sink Current

V

OUT 

= 3V

50

mA

V

OH

High Level Output Voltage

I

O

 = –10μA 

I

O

 = –200μA

 

l

 

2.7

2.995 

2.99

V

V

OL

Low Level Output Voltage

I

O

 = 10μA 

I

O

 = 1.6mA

 

l

0.005 

0.09

 

0.4

V

OV

DD

 = 2.5V

V

OH

High Level Output Voltage

I

= –200μA

2.49

V

V

OL

Low Level Output Voltage

I

= 1.6mA

0.09

V

OV

DD

 = 1.8V

V

OH

High Level Output Voltage

I

= –200μA

1.79

V

V

OL

Low Level Output Voltage

I

= 1.6mA

0.09

V

 

The 

l

 denotes the specifications which apply over the full operating 

temperature range, otherwise specifications are at T

A

 = 25°C. Unless otherwise noted, V

CC1

 = V

CC2

 = 5V, V

DD

 = OV

DD

 = 3V. V

CC3

 = 3V 

(LTM9004-AC, LTM9004-AD), V

CC3

 = 5V (LTM9004-AA, LTM9004-AB)

power requireMenTs

 

The 

l

 denotes the specifications which apply over the full operating temperature 

range, otherwise specifications are at T

A

 = 25°C. Unless otherwise noted, V

CC1

 = V

CC2

 = 5V, V

DD

 = OV

DD

 = 3V. V

CC3

 = 3V (LTM9004-

AC, LTM9004-AD), V

CC3

 = 5V (LTM9004-AA, LTM9004-AB) (Note 3)

SYMBOL

PARAMETER

CONDITIONS

MIN

TYP

MAX

UNITS

Logic Outputs
OV

DD

 = 3V

C

OZ

Hi-Z Output Capacitance

OE

 = 3V (Note 6)

3

pF

I

SOURCE

Output Source Current

V

OUT 

= 0V

50

mA

I

SINK

Output Sink Current

V

OUT 

= 3V

50

mA

V

OH

High Level Output Voltage

I

O

 = –10μA 

I

O

 = –200μA

 

l

 

2.7

2.995 

2.99

V

V

OL

Low Level Output Voltage

I

O

 = 10μA 

I

O

 = 1.6mA

 

l

0.005 

0.09

 

0.4

V

OV

DD

 = 2.5V

V

OH

High Level Output Voltage

I

= –200μA

2.49

V

V

OL

Low Level Output Voltage

I

= 1.6mA

0.09

V

OV

DD

 = 1.8V

V

OH

High Level Output Voltage

I

= –200μA

1.79

V

V

OL

Low Level Output Voltage

I

= 1.6mA

0.09

V

SYMBOL

PARAMETER

CONDITIONS

MIN

TYP

MAX

UNITS

V

CC1

Mixer Supply Voltage

l

4.5

5.25

V

V

CC2

First Amplifier Supply Voltage

l

4.5

5.25

V

V

CC3

Second Amplifier Supply Voltage

LTM9004-AA, LTM9004-AB 

LTM9004-AC, LTM9004-AD

l

4.5 

2.7

 

3

5.25 

3.5

V

V

DD

ADC Analog Supply Voltage

l

2.7

3

3.6

V

OV

DD

ADC Digital Output Supply Voltage

l

0.5

3

3.6

V

I

CC1

Mixer Supply Current

l

129

180

mA

I

CC1(SHDN)

Mixer Shutdown Current

MIXENABLE = 0V, AMPxENABLE = HIGH, 

ADCSHDN = 0V, 

OE

 = 0V

l

10

11

mA

I

CC2

First Amplifier Supply Current

l

52

63

mA

I

CC2(SHDN)

First Amplifier Shutdown Current

MIXENABLE = 5V, AMP1ENABLE = 0V, 

AMP2ENABLE = HIGH, ADCSHDN = 0V,  

OE

 = 0V

l

7.5

9

mA

I

CC3

Second Amplifier Supply Current

LTM9004-AA, LTM9004-AB

l

21

24

mA

I

CC3(SHDN)

Second Amplifier Shutdown Current

LTM9004-AA, LTM9004-AB, MIXENABLE =  

AMP1ENABLE = 5V, AMP2ENABLE = 0V, 

ADCSHDN = 0V, 

OE

 = 0V

l

0.8

4

mA

I

CC3

Second Amplifier Supply Current

LTM9004-AC, LTM9004-AD

l

36

44

mA

I

CC3(SHDN)

Second Amplifier Shutdown Current

LTM9004-AC, LTM9004-AD, MIXENABLE =  

AMP1ENABLE = 5V, AMP2ENABLE = 0V, 

ADCSHDN = 0V, 

OE

 = 0V

l

0.6

4

mA

I

DD

ADC Supply Current

l

273

306

mA

Summary of Contents for LTM9004

Page 1: ...allows the outputs to drive 0 5V to 3 3V logic An optional multiplexer allows both channels to share a digital output bus An optional clock duty cycle stabilizer allows high performance at full speed...

Page 2: ...H G F E D C B M A LEAD FREE FINISH TRAY PART MARKING PACKAGE DESCRIPTION TEMPERATURE RANGE LTM9004CV AA PBF LTM9004CV AA PBF LTM9004V AA 204 Lead 15mm 22mm 2 91mm LGA 0 C to 70 C LTM9004IV AA PBF LTM9...

Page 3: ...z 60 8 64 6 dBm dBm RF to LO Isolation RF 900MHz RF 1900MHz 59 7 57 1 dB dB Maximum DC Offset Voltage No RF Note 5 35 mV DC Offset Variation 40 C to 85 C 210 V C Gain Flatness DC to 1 92MHz LTM9004 AA...

Page 4: ...91 dB LTM9004 AC RF 1952 5MHz LO 1950MHz l 70 89 dB LTM9004 AD RF 1955MHz LO 1950MHz l 70 89 dB S N D Signal to Noise Plus Distortion Ratio at 1dBFS LTM9004 AA RF 1950 5MHz LO 1950MHz l 51 5 58 5 dB L...

Page 5: ...ce VCC2 5V VAMP1ENABLE 0V to 0 5V 25 70 k Turn On Time 200 ns Turn Off Time 50 ns Second Amplifier Logic Input AMP2ENABLE LTM9004 AA LTM9004 AB VIH High Level Input Voltage VCC3 5V l VCC3 0 6 V VIL Lo...

Page 6: ...t VOUT 0V 50 mA ISINK Output Sink Current VOUT 3V 50 mA VOH High Level Output Voltage IO 10 A IO 200 A l 2 7 2 995 2 99 V V VOL Low Level Output Voltage IO 10 A IO 1 6mA l 0 005 0 09 0 4 V V OVDD 2 5V...

Page 7: ...ITIONS MIN TYP MAX UNITS fS Sampling Frequency l 1 125 MHz tL CLK Low Time Duty Cycle Stabilizer Off Note 6 Duty Cycle Stabilizer Off Note 6 l l 3 8 3 4 4 500 500 ns ns tH CLK High Time Duty Cycle Sta...

Page 8: ...tIPQ tH tL CLKOUT tC DQ0 DQ13 I 1 I 5 Q 5 I 4 Q 4 I 3 Q 3 I 2 Q 2 I 1 Q 5 I 5 Q 4 I 4 Q 3 I 3 Q 2 I 2 Q 1 I 2 I 4 I 3 I DEMODULATOR ANALOG OUTPUT I tIPI Multiplexed Digital Output Bus Timing Timing Di...

Page 9: ...00 120 4 8 16 12 0 110 FREQUENCY MHz 0 AMPLITUDE dBFS 90 80 70 60 50 40 30 20 10 20 9004 G02 100 120 4 8 16 12 0 110 BASEBAND FREQUENCY MHz 0 dB 45 40 35 30 25 20 15 10 5 20 18 9004 G02a 50 60 2 4 6 1...

Page 10: ...IN 1955 0MHz 1dBFS SENSE VDD LTM9004 AD Baseband Frequency Response FREQUENCY MHz 0 AMPLITUDE dBFS 90 80 70 60 50 40 30 20 10 60 9004 G08 100 120 10 20 40 50 30 0 110 IF FREQUENCY MHz 0 AMPLITUDE dB 4...

Page 11: ...Clock Input The input sample starts on the positive edge Tie CLKQ and CLKI together I _ADJ PinB1 DCOffsetAdjustPinforI Channel Line Source or sink current through this pin to trim DC offset I _ADJ Pi...

Page 12: ...to ADCSHDNI pin function Digital Outputs CLKOUT Pin E12 ADC Data Ready Clock Output Latch data on the falling edge of CLKOUT CLKOUT is derived from CLKQ Tie CLKQ to CLKI for simultaneous operation DI0...

Page 13: ...E 9004 BD ADC LPF OUTPUT DRIVERS LPF LPF RF LO ADJ ADJ SENSE REF BUFFER DIFF REF AMP D13 D0 AMP2 ENABLE VCC3 2ND AMP AMP1 ENABLE VCC2 1ST AMP 1 5V REFERENCE RANGE SELECT For more information www linea...

Page 14: ...because their frequency response extends to DC Thefollowingsectionsdescribeinfurtherdetailtheopera tion of each section The Module technology allows the LTM9004 to be customized and this is described...

Page 15: ...fferent cutoff frequencies within the range of the amplifiers LTM9004 AA for example implements a lowpass filter designed for 1 92MHz ADC INPUT NETWORK The passive network between the second amplifier...

Page 16: ...ce FREQUENCY MHz MAGNITUDE PHASE R X 500 0 78 139 7 16 1 10 7 600 0 69 166 6 10 1 3 8 700 0 60 163 7 14 0 3 8 800 0 52 132 6 25 8 6 9 900 0 48 102 7 41 9 3 4 1000 0 45 77 4 58 8 4 3 1100 0 42 56 6 74...

Page 17: ...5 2 7 6 3000 0 58 124 9 27 9 7 9 ADC Reference The internal voltage reference can be configured for two pin selectable ADC input ranges Tying the SENSE pin to VDD selects the default range tying the S...

Page 18: ...ntrolled by ADCSHDNI and OEI and Q Channel is controlled by ADCSHDNQ and OEQ The nap sleep and output enable modes of the two channels are completely independent so it is possible to have one channel...

Page 19: ...requency noise that may be induced into the clock line by neighboring digital signals as well as a damping mechanism for reflections Maximum and Minimum Conversion Rates The maximum conversion rate fo...

Page 20: ...ppear as 50 to external circuitry and may eliminate the need for external damping resistors Aswithallhighspeed highresolutionconvertersthedigi tal output loading can affect the performance The digital...

Page 21: ...bus connect MUX CLKI and CLKQ together see the Tim ing Diagrams for the multiplexed mode The multiplexed data is available on either data bus the unused data bus can be disabled with its OE pin APPLI...

Page 22: ...5dB Leakage appearing at the LTM9004 input is then 42dBm offset from the receive signal by at least 130MHz The equivalent digitized level is only 76 6dBFS peak so there is no desensitization One chall...

Page 23: ...of sufficient area with as many vias as possible Recommended Layout The high integration of the LTM9004 makes the PCB board layout simple However to optimize its electrical and thermal performance so...

Page 24: ...LTM9004 24 9004fa For more information www linear com LTM9004 APPLICATIONS INFORMATION Figure 11 Layer 1 Figure 12 Layer 2...

Page 25: ...LTM9004 25 9004fa For more information www linear com LTM9004 APPLICATIONS INFORMATION Figure 13 Layer 3 Figure 14 Layer 4...

Page 26: ...66 0 46 2 55 0 15 0 10 0 05 NOTES DIMENSIONS TOTAL NUMBER OF LGA PADS 204 NOTES 1 DIMENSIONING AND TOLERANCING PER ASME Y14 5M 1994 2 ALL DIMENSIONS ARE IN MILLIMETERS LAND DESIGNATION PER JESD MO 222...

Page 27: ...6 Revision History Information furnished by Linear Technology Corporation is believed to be accurate and reliable However noresponsibilityisassumedforitsuse LinearTechnologyCorporationmakesnorepresent...

Page 28: ...QFN LT5575 800MHz to 2 7GHz High Linearity Direct Conversion Quadrature Demodulator 60dBm IIP2 at 1 9GHz NF 12 7dB Low DC Offsets LTC6404 1 LTC6404 2 600MHz Low Noise AC Precision Fully Differential I...

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