DC996B-H - ANALOG DEVICES - Datasheet.Directory

dc996f

DEMO MANUAL DC996

DESCRIPTION

LTC2208/LTC2208-14/LTC2217/

LTC2216/LTC2215

16-Bit/14-Bit 80Msps to130Msps

ADCs

Demonstration circuit 996 supports a family of 16-/14-bit

80Msps to 130Msps ADCs. Each assembly features one of

the following devices: LTC

2208, LTC2208-14, LTC2217,

LTC2216, LTC2215 high speed, high dynamic range ADCs.

This demonstration circuit only supports LVDS operation.

For demonstration of CMOS output signaling, please see

DC854.

Other members of this family include the LTC2207, a

105Msps 16-bit CMOS-only version of this device, as

well as lower speed versions and single-ended clock ver-

sions. These 7mm × 7mm QFN devices are supported by

Demonstration Circuits 918 and 919 (for single-ended

clock input).

L, LT, LTC, LTM, Linear Technology and the Linear logo are registered trademarks and PScope

is a trademark of Linear Technology Corporation. All other trademarks are the property of their

respective owners.

Several versions of the 996 demo board supporting the

LTC2208 16-bit, LTC2217 16-bit and LTC2208-14 14-bit

series of A/D converters are listed in Table 1. Depending on

the required resolution, sample rate and input frequency,

the DC996 is supplied with the appropriate ADC and with

an optimized input circuit. The circuitry on the analog inputs

is optimized for analog input frequencies below 70MHz

or from 70MHz to 140MHz. For higher input frequencies,

contact the factory for support.

Design files for this circuit board are available at

http://www.linear.com/demo

Table 1. DC996 Variants

DC996 VARIANTS ADC PART NUMBER RESOLUTION MAXIMUM SAMPLE RATE INPUT FREQUENCY

996B-A LTC2208 16-Bit 130Msps 1MHz to 70MHz

996B-B LTC2208 16-Bit 130Msps 70MHz to 140MHz

996B-C LTC2208-14 14-Bit 130Msps 1MHz to 70MHz

996B-D LTC2208-14 14-Bit 130Msps 70MHz to 140MHz

996B-E LTC2217 16-Bit 105Msps 1MHz to 70MHz

996B-F LTC2217 16-Bit 105Msps 70MHz to 140MHz

996B-G LTC2216 16-Bit 80Msps 1MHz to 70MHz

996B-H LTC2216 16-Bit 80Msps 70MHz to 140MHz

996B-I LTC2215 16-Bit 65Msps 1MHz to 70MHz

996B-J LTC2215 16-Bit 65Msps 70MHz to 140MHz

996A-P LTC2208 16-Bit 130Msps >140MHz

996A-Q LTC2208-14 14-Bit 130Msps >140MHz

dc996f

DEMO MANUAL DC996

QUICK START PROCEDURE

PERFORMANCE SUMMARY

(TA = 25°C)

PARAMETER CONDITION VALUE

Supply Voltage Depending On Sampling Rate and the A/D Converter Provided,

This Supply Must Provide Up To 700mA.

Optimized for 3.3V

[3.15V⇔3.45V Min/Max]

Analog Input Range Depending on PGA Pin Voltage 1.5VP-P to 2.25VP-P

Logic Input Voltages Minimum Logic High

Maximum Logic Low

0.8V

Logic Output Voltages (Differential) Nominal Logic Levels (100Ω Load)

Minimum Logic levels (100Ω Load)

350mV/2.1V Common Mode

247mV/2.1V Common Mode

Sampling Frequency (Convert Clock Frequency) See Table 1

Convert Clock Level 50Ω Source Impedance, AC-Coupled or Ground Referenced

(Convert Clock Input Is Capacitor Coupled On Board and

Terminated with 50Ω.)

2VP-P⇔2.5VP-P Sine Wave or

Square wave

Resolution See Table 1

Input frequency range See Table 1

SFDR See Applicable Data Sheet

SNR See Applicable Data Sheet

Demonstration circuit 996 is easy to set up to evaluate

the performance of the LTC2208/LTC2208-14/LTC2217

A/D converters. Refer to Figure 1 for proper measurement

equipment setup and follow this procedure:

Setup

If a DC890 QuikEval™ II Data Acquisition and Collection

System was supplied with the DC996 demonstration

circuit, follow the DC890 Quick Start Guide to install the

required software and for connecting the DC890 to the

DC996 and to a PC.

DC996 Demonstration Circuit Board Jumpers

The DC996 demonstration circuit board should have the

following jumper settings as default: (as per Figure 1).

Figure 1 shows DC996A, the DC996B is shown in Figure 7.

J2: Mode (VCC) 2's Complement CDS Off

J3: SHDN: (Run) Dither (Off)

J4: Rand (Off) PGA 1x

J9: Unused power connector

Applying Power and Signals to the DC996

Demonstration Circuit

Apply 3.3V across the pins marked “+3.3V” and “PWR

GND” on the DC996. The DC996 demonstration circuit

requires up to 700mA depending on the sampling rate and

the A/D converter supplied. If a DC890 is used to acquire

data from the DC996, the DC890 must be provided with

an external 6V ±0.5V 1A supply on turrets G7(+) and

G1(–) or the adjacent 2.1mm power jack to support the

power requirements of the Xilinx Spartan 3 FPGA active

terminations used to terminate the LVDS repeaters on the

DC996. The DC890 will not activate the LVDS mode unless

the DC890 detects external power present.

If external power is not present the DC890 will not config-

ure the FPGA for LVDS terminations as this would result

in exceeding the USB 500mA limit. The DC890 contains

an onboard electronic circuit breaker which will shut off

the DC890 if external power is removed while the FPGA

is configured for LVDS active terminations.

dc996f

DEMO MANUAL DC996

QUICK START PROCEDURE

Figure 1. DC996A Setup (Zoom for Detail). See Figure 7 for DC996B

Encode Clock

Note: This is not a logic-compatible input. It is terminated

with 50Ω. Apply an encode clock to the SMA connector

on the DC996 demonstration circuit board marked “J7

ENCODE INPUT”. This is a transformer-coupled input,

terminated on the secondary side in two steps, 100Ω at

the transformer with final termination at the ADC at 100Ω.

For the best noise performance, the ENCODE INPUT

must be driven with a very low jitter source. When using

a sinusoidal generator, the amplitude should often be as

large as possible, up to 3VP-P or 13dBm. Using bandpass

filters on the clock and the analog input will improve the

noise performance by reducing the wideband noise power

of the signals. Data sheet FFT plots are taken with 10-pole

LC filters made by TTE (Los Angeles, CA) to suppress

signal generator harmonics, non-harmonically related

spurs and broad band noise. Low phase noise Agilent

8644B generators are used with TTE bandpass filters for

both the clock input and the analog input.

Apply the analog input signal of interest to the SMA con-

nectors on the DC996 demonstration circuit board marked

“J5 ANALOG INPUT”. These inputs are capacitive coupled

to Balun transformers ETC1-1-13, or directly coupled

through flux-coupled transformers ETC1-1T.

dc996f

DEMO MANUAL DC996

An internally generated conversion clock output is avail-

able on J1 which could be collected via a logic analyzer, or

other data collection system if populated with a SAMTEC

MEC8-150 type connector or collected by the DC890 Data

Acquisition Board using the PScope™ System Software

provided or downloaded from the Linear Technology

website at http://www.linear.com/designtools/software/.

If a DC890 was provided, follow the DC890 Quick Start

Guide and the instructions below.

To start the data collection software if “PScope.exe”, is

installed (by default) in \Program Files\LTC\PScope\, double

click the PScope Icon or bring up the run window under

the start menu and browse to the PScope directory and

select PScope.

If the DC996 demonstration circuit is properly connected to

the DC890, PScope should automatically detect the DC996,

and configure itself accordingly. If necessary the procedure

below explains how to manually configure PScope.

Under the Configure menu, go to ADC Configuration.

Check the Config Manually box and use the following

configuration options:

• 16-Bit (or 14-Bit if using LTC2208-14)

• Alignment: Left-16

• Bipolar (2’s complement)

• Positive clock edge

• Type: LVDS

If everything is hooked up properly, powered and a suit-

able convert clock is present, clicking the “Collect” button

should result in time and frequency plots displayed in

the PScope window. Additional information and help for

PScope is available in the DC890 Quick Start Guide and in

the online help available within the PScope program itself.

QUICK START PROCEDURE

Analog Input Network

For optimal distortion and noise performance the RC

network on the analog inputs should be optimized for the

analog input frequencies of interest. At this point in time,

the circuit in Figure 3 for input frequencies below 70MHz.

For input frequencies from 70MHz to 140MHz, the circuit

in Figure 2 is used. These two input networks cover a

broad bandwidth and are not optimized for operation at a

specific input frequency.

For higher frequencies, a single balun (ETC1-1-13) is

populated on a DC996A board.

In almost all cases, filters will be required on both analog

input and encode clock to provide data sheet SNR.

The filters should be located close to the inputs to avoid

reflections from impedance discontinuities at the driven

end of a long transmission line. Most filters do not present

50Ω outside the passband.

The DC996A board has provision for a bandpass filter

prior to the balun. This may be populated if the board is

customized for a given frequency band. (Figure 5)

In some cases, 3dB to 10dB pads may be required to

obtain low distortion.

If your generator cannot deliver full-scale signals without

distortion, you may benefit from a medium power ampli-

fier based on a Gallium Arsenide Gain block prior to the

final filter. This is particularly true at higher frequencies

where operational amplifiers may be unable to deliver

the combination of low noise figure and high IP3 point

required. A high order filter can be used prior to this final

amplifier, and a relatively lower Q filter used between the

amplifier and the demo circuit.

For advice on drive circuits or for input frequencies greater

than 220MHz, or for higher order bandpass filtering prior

to the ADC, contact the factory for support.

dc996f

DEMO MANUAL DC996

QUICK START PROCEDURE

0.1μF

AIN+

AIN–

2.2μF

VCM

LTC2208

ANALOG

INPUT

0.1μF

0.1μF 5Ω

33Ω

33Ω 5Ω

10Ω

49.9Ω

10Ω

1:1

RESISTORS, CAPACITORS

ARE 0402 PACKAGE SIZE

EXCEPT 2.2μF

MA/COM ETC1-1-13

COILCRAFT WBC1-1L

70MHz TO 200MHz

Figure 2. Analog Front-End Circuit For 70MHz+

Figure 3. Analog Front-End Circuit For 1MHz < AIN < 70MHz

0.1μF

AIN+

AIN–

2.2μF

8.2μF

VCM

LTC2208

ANALOG

INPUT

0.1μF

0.1μF 5Ω

33Ω

33Ω 5Ω

10Ω

49.9Ω

10Ω

1:1

RESISTORS, CAPACITORS

ARE 0402 PACKAGE SIZE

EXCEPT 2.2μF

MA/COM ETC1-1-13

COILCRAFT WBC1-1L

1MHz TO 70MHz

For input frequencies less than 5MHz, or greater than

150MHz, other input networks may be more appropriate.

Please consult the factory for suggestions on drivers

and networks if your signal sources extend outside these

ranges, or if you experience difficulties driving these sug-

gested networks.

As this board has a black solder mask, in order to improve

the thermal performance, Figure 4 is a picture of the top

side in colors that are easier to digest. The dielectric under

the input network (bluish pads) is 20 mils, otherwise,

dielectric thickness is 6 mils.

This board is used only for 200MHz+ applications. The

input network of Figure 5 is devised to be populated with

a bandpass filter.

Gerber or PDF files of this board are available.

If the higher frequency board is ordered without requesting

a bandpass filter, C6 is a counterpart to C7, providing a

DC block, C23 is a 0Ω resistor.

If this is populated as a BP filter, The reactance of L1 and

L3, and the series of C6 and C5 (and C21 and C23) should

be between 50Ω and 33Ω. The reactance of L2 should

match that of 1/2 C6^+C5.

The ratio of C5 to C6 will determine coupling be-tween the

two resonators, with a high ratio giving a narrow pass band.

As an example, for center frequency of 260MHz; –3dB

BW of 150MHz, C6, C23 = 27pF; C5, C21 = 68pF; L1, L3

= 18 nH; L2 = 7.5nH.

This has a flat passband over 80MHz. See Figure 6.

This filter is not intended as a band-defining filter, but

simply to minimize noise BW prior to the ADC, and to

minimize 2nd and 3rd originating in a drive amplifier. 2nd

harmonic of 260 is down at 1.

dc996f

DEMO MANUAL DC996

QUICK START PROCEDURE

gure

DC996A

wor

Figure 5. Input Filter for DC996A Board

dc996f

DEMO MANUAL DC996

QUICK START PROCEDURE

Figure 8. DC996B Artwork

Figure 6. Input Filter Frequency Response for DC996A Board

Figure 7. DC996B Board—Two Transformer Version

dc996f

DEMO MANUAL DC996

PARTS LIST

ITEM QTY REFERENCE PART DESCRIPTION MANUFACTURER/PART NUMBER

DC996A General BOM

1 0 C4 (Option) CAP~NPO~1.8pF~50V~0.25pF~0402 AVX, 04025A1R8CAT2A

2 1 C8 CAP~NPO~1.8pF~50V~0.25pF~0402 AVX, 04025A1R8CAT2A

3 1 C12 CAP~X5R~0.01μF~16V~10%~0402 AVX, 0402YC103KAT

4 15 C15-16, C20, C22, C25-32, C34-36 CAP~X5R~0.1μF~10V~10%~0402 AVX, 0402ZD104KAT

5 0 C10, C11 (Option)

6 6 C1-3, C6, C7, C23 CAP~X7R~0.01μF~16V~10%~0603 AVX, 0603YC103KAT

7 2 C18, C19 CAP~X7R~0.1μF~16V~10%~0603 AVX, 0603YC104KAT

8 0 C21 (Option)

9 2 C13, C17 CAP~X5R~2.2μF~10V~20%~0805 AVX, 0805ZD225MAT

10 3 C14, C24, C38 CAP~X5R~4.7μF~10V~20%~0805 AVX, 0805ZD475MAT

11 0 C5 (Option)

12 4 J2, J3, J4, J9 HEADER~3X2~2mm COMM_CON/2202S-06G2

13 2 J5, J7 CONN~SMA 50Ω EDGE-LAUNCH E.F. Johnson, 142-0701-851

14 0 L1 (Option)

15 1 L2 RES~0Ω_JUMPER~0603 AAC, CJ06-000M

16 0 L3 (Option)

17 19 R13, R16-23, R30-35, R38-41 RES~100Ω~5%~1/20~0201 VISHAY, CRCW0201100RJNED

18 1 R15 RES~100Ω~1%~1/16~0402 VISHAY, CRCW0402100RFKED

19 1 R24 RES~100k~1%~1/16~0402 VISHAY, CRCW0402100KFKED

20 2 R11-12 RES~33.2Ω~1%~1/16~0402 VISHAY, CRCW040233R2FKED

21 2 R1, R2 RES~49.9Ω~1%~1/16~0402 VISHAY, CRCW040249R9FKEA

22 6 R4, R5, R9, R10, R27, R28 RES~4.99Ω~1%~1/16W~0402 VISHAY, CRCW04024R99FKED

23 3 R25, R26, R29 RES~4990Ω~1%~1/16~0402 VISHAY, CRCW04024K99FKED

24 0 R3 (Option)

25 2 R14, R37 RES~100Ω~1%~1/16W~0603 VISHAY, CRCW0603100RFKEA

26 3 R6-8 RES~1000Ω~1%~1/16W~0603 VISHAY, CRCW06031K00FKEB

27 2 R42, R43 FERRITE BEAD~SMT~1206 MURATA, BLM31PG330SN1L

28 2 T1, T2 XFRM~RF~SMT~1:1 BALUN MACOM, MABA-007159-000000

29 1 U1 (Bal to 1298A) IC~SERIAL_EEPROM~TSSOP8 MICROCHIP, 24LC025-I /ST

30 2 U3, U4 BUFFER~LVDS~OCTAL FAIRCHILD, FIN1108MTDX

31 1 U5 BUFFER~LVDS~SINGLE FAIRCHILD, FIN1101K8X

32 4 TP1, TP2, TP4, TP5 TURRET MILL MAX, 2308-02-00-80-00-00-07-00

33 4 Z (STAND-OFF) STAND-OFF, NYLON 0.25'" tall KEYSTONE, 8831(SNAP ON)

34 5 SHUNT, 0.079" Center SAMTEC, 2SN-BK-G

35 2 STENCIL, 20X20 STENCIL 996A, 20X20

DC996A-P

1 1 U2 (DC996A-P) IC~ADC~130Msps~16-BIT~QFN-64 LINEAR_TECH/LTC2208CUP#PBF

2 1 FAB, PRINTED CIRCUIT BOARD DEMO CIRCUIT #996A

DC996A-Q

1 1 U2 (DC996A-Q) IC~ADC~130Msps~14-BIT~QFN-64 LINEAR_TECH/LTC2208CUP-14#PBF

2 1 FAB, PRINTED CIRCUIT BOARD DEMO CIRCUIT #996A

dc996f

DEMO MANUAL DC996

PARTS LIST

ITEM QTY REFERENCE PART DESCRIPTION MANUFACTURER/PART NUMBER

DC996B General BOM

1 5 C1-C3, C6-7 CAP~X7R~0.01μF~16V~10%~0603 AVX/0603YC103KAT

2 2 C13, C17 CAP~X5R~2.2μF~10V~20%~0805 AVX/0805ZD225MAT

3 3 C14, C24, C38 CAP~X5R~4.7μF~10V~20%~0805 AVX/0805ZD475MAT

4 15 C15-16, C20, C22, C25-C32, C34-C36 CAP~X5R~0.1μF~10V~10%~0402 AVX/0402ZD104KAT

5 0 C18, C19(Option) CAP~X7R~0.1μF~16V~10%~0603 AVX/0603YC104KAT

6 1 C4 (Also C9-C10 options) CAP~NPO~8.2pF~50V~0.25pF~0402 AVX/04025A8R2CAT2A

7 2 C5, C12 CAP~X5R~0.01μF~16V~10%~0402 AVX/0402YC103KAT

8 3 J2-4 HEADER~3 × 2~2mm COMM_CON/2202S-06G2

9 0 J9 (Option) HEADER~3 × 2~2mm COMM_CON/2202S-06G2

10 2 J5, J7 CONN~SMA 50Ω EDGE-LAUNCH AMPHENOL_CONNEX/132357

11 2 R42-R43 FERRITE BEAD~SMT~1206 MURATA/BLM31PG330SN1L

12 2 R9-R10 RES~10Ω~1%~1/16~0402 AAC/CR05-10R0FM

13 1 R15 RES~100Ω~1%~1/16~0402 AAC/CR05-1000FM

14 1 R37 RES~100Ω~1%~1/16W~0603 AAC/CR16-1000FM

15 19 R13, R16-R23, R30-R35, R38-R41 RES~100Ω~5%~1/20~0201 ACC/CR20-101JM

16 3 R6-8, R14 RES~1k~1%~1/16W~0603 AAC/CR16-1001FM

17 1 R24 RES~100k~1%~1/16~0402 AAC/CR05-1003FM

18 2 R1-R2 RES~49.9Ω~1%~1/16~0402 AAC/CR05-49R9FM

19 0 R3 (OPTION) RES~100Ω~1%~1/16W~0603 AAC/CR16-1000FM

20 2 R11-R12 RES~33.2Ω~1%~1/16~0402 AAC/CR05-33R2FM

21 3 R25, R26, R29 RES~4990Ω~1%~1/16~0402 AAC/CR05-4991FM

22 2 R27-R28 RES~10Ω~5%~1/20~0201 PANASONIC, ERJ-1GEJ100C

23 2 R4-R5 RES~5.1Ω~1%~1/16~0402 AAC/CR05-5R1FM

24 1 T3 XFRM~RF~SMT~1:1 BALUN M/A-COM, ETC1-1-13 (Leaded)

M/A-COM, MABA-007159-000000 (PbF)

25 4 TP1-2, TP4-5 TURRET MILL_MAX/2308-2

26 1 U1 IC~Serial_EEPROM~TSSOP8 MICROCHIP/24LC025-I /ST

27 2 U3, U4 BUFFER~LVDS~OCTAL FAIRCHILD/FIN1108MTD

28 1 U5 BUFFER~LVDS~SINGLE FAIRCHILD/FIN1101K8X

29 4 Z (STAND-OFF) STAND-OFF, NYLON 0.25" tall KEYSTONE, 8831(SNAP ON)

30 5 SHUNT, 0.079" Center SAMTEC, 2SN-BK-G

31 2 STENCIL, 20 × 20 STENCIL 996B, 20X20

DC996B-A

1 1 C8 CAP~NPO~4.7pF~50V~0.25pF~0402 AVX/04025A4R7CAT2A

2 2 C9-C10 CAVP~NPO~8.2pF~50V~0.25pF~0402 AVX/04025A8R2CAT2A

3 1 L1 IND~56nH~5%~0603 MURATA/LQP18MN56NG02D

4 2 R36, R44 RES~86.6~1%~1/16W~0603 AAC/CR16-86R6FM

5 1 R45 RES~86.6~1%~1/16~0402 AAC/CR05-86R6FM

6 1 T1 BALUN~RF~SMT~1:1 M/A-COM, ETC1-1-13 (Leaded)

M/A-COM, MABA-007159-000000 (PbF)

7 1 T2 XFRM~RF~SMT~1:1CT M/A-COM, ETC1-1T (Leaded)

M/A-COM, MABAES0060 (PbF)

8 1 U2 (D/C 0619) ADC~16BIT~130MSPS (Lot# T23920.2) LINEAR/LTC2208IUP#PBF

9 1 FAB, PRINTED CIRCUIT BOARD DEMO CIRCUIT 996B-A

dc996f

DEMO MANUAL DC996

DC966B-E

1 1 C8 CAP~NPO~4.7pF~50V~0.25pF 0402 AVX, 04025A4R7CAT2A

2 2 C9-10 CAP~NPO~8.2pF~50V~0.25pF 0402 AVX, 04025A8R2CAT2A

3 1 L1 IND~56nH~5% 0603 MURATA, LQP18MN56NG02D

4 2 R36, R44 RES~86.6Ω~1%~1/16W 0603 VISHAY, CRCW060386R6FKEA

5 1 R45 RES~86.6Ω~1%~1/16 0402 VISHAY, CRCW040286R6FKED

6 1 T1 BALUN~RF~SMT~1:1 M/A-COM, MABA-007159-000000 (PbF)

7 1 T2 XFRM~RF~SMT~1:1CT M/A-COM, MABAES0060 (PbF)

8 1 U2 ADC~16-BIT~105Msps LINEAR, LTC2217IUP#PBF

9 1 FAB, PRINTED CIRCUIT BOARD DEMO CIRCUIT 996B

PARTS LIST

ITEM QTY REFERENCE PART DESCRIPTION MANUFACTURER/PART NUMBER

DC996B-B

1 1 C8 CAP~NPO~1.8pF~50V~0.25pF~0402 AVX/04025A1R8CAT2A

2 2 C9-C10 CAP~NPO~3.9pF~50V~0.25pF~0402 AVX/04025A3R9CAT2A

3 1 L1 IND~18nH~5%~0603 MURATA/LQP18MN18NG02D

4 2 R36, R44 RES~43.2Ω~1%~1/16W~0603 AAC/CR16-43R2FM

5 1 R45 RES~182Ω_JUMPER~0402 AAC/CR05-1820FM

6 1 T1 BALUN~RF~SMT~1:1 M/A-COM, ETC1-1-13 (Leaded) M/A-COM,

MABA-007159-000000 (PbF)

7 1 T2 TRANSFORMER, WBC1-1L COILCRAFT, WBC1-1L

8 1 U2 D/C 0619 ADC~16-BIT~130Msps, Lot# T23920.2 LINEAR/LTC2208IUP#PBF

9 1 FAB, PRINTED CIRCUIT BOARD DEMO CIRCUIT #996B-B

DC996B-C

1 1 C8 CAP~NPO~4.7pF~50V~0.25pF~0402 AVX/04025A4R7CAT2A

2 2 C9-C10 CAP~NPO~8.2pF~50V~0.25pF~0402 AVX/04025A8R2CAT2A

3 1 L1 IND~56nH~5%~0603 MURATA/LQP18MN56NG02D

4 2 R36, R44 RES~86.6Ω~1%~1/16W~0603 AAC/CR16-86R6FM

5 1 R45 RES~86.6Ω~1%~1/16~0402 AAC/CR05-86R6FM

6 1 T1 BALUN~RF~SMT~1:1 M/A-COM, ETC1-1-13 (Leaded)

M/A-COM, MABA-007159-000000 (PbF)

7 1 T2 XFRM~RF~SMT~1:1CT M/A-COM, ETC1-1T (Leaded)

M/A-COM, MABAES0060 (PbF)

8 1 U2 (Lot #T23307.1) ADC~14BIT~130MSPS (D/C 0604) LINEAR/LTC2208IUP-14#PBF

9 1 FAB, PRINTED CIRCUIT BOARD DEMO CIRCUIT #996B-C

DC996B-D

1 1 C8 CAP~NPO~1.8pF~50V~0.25pF~0402 AVX/04025A1R8CAT2A

2 2 C9-C10 CAP~NPO~3.9pF~50V~0.25pF~0402 AVX/04025A3R9CAT2A

3 1 L1 IND~18nH~5%~0603 MURATA/LQP18MN18NG02D

4 2 R36, R44 RES~43.2Ω~1%~1/16W~0603 AAC/CR16-43R2FM

5 1 R45 RES~182Ω_JUMPER~0402 AAC/CR05-1820FM

6 1 T1 BALUN~RF~SMT~1:1 M/A-COM, ETC1-1-13 (Leaded)

M/A-COM, MABA-007159-000000 (PbF)

7 1 T2 TRANSFORMER, WBC1-1L Coilcraft, WBC1-1L

8 1 U2 (Lot #T23307.1) ADC~14-BIT~130Msps (D/C 0604) LINEAR/LTC2208IUP-14#PBF

9 1 FAB, PRINTED CIRCUIT BOARD DEMO CIRCUIT #996B-D

dc996f

DEMO MANUAL DC996

ITEM QTY REFERENCE PART DESCRIPTION MANUFACTURER/PART NUMBER

DC966B-F

1 1 C8 CAP~NPO~1.8pF~50V~0.25pF 0402 AVX, 04025A1R8CAT2A

2 2 C9-10 CAP~NPO~3.9pF~50V~0.25pF 0402 AVX, 04025A3R9CAT2A

3 1 L1 IND~18nH~5% 0603 MURATA, LQP18MN18NG02D

4 2 R36, R44 RES~43.2Ω~1%~1/16W 0603 VISHAY, CRCW060343R2FKEA

5 1 R45 RES~182Ω_JUMPER 0402 VISHAY, CRCW0402182RFKED

6 1 T1 BALUN~RF~SMT~1:1 M/A-COM, MABA-007159-000000 (PbF)

7 1 T2 TRANSFORMER, WBC1-1TL Coilcraft, WBC1-1TLC

8 1 U2 ADC~16-BIT~105Msps, LINEAR, LTC2217IUP#PBF

9 1 FAB, PRINTED CIRCUIT BOARD DEMO CIRCUIT #996B

DC966B-G

1 1 C8 CAP~NPO~4.7pF~50V~0.25pF 0402 AVX, 04025A4R7CAT2A

2 2 C9-10 CAP~NPO~8.2pF~50V~0.25pF 0402 AVX, 04025A8R2CAT2A

3 1 L1 IND~56nH~5% 0603 MURATA, LQP18MN56NG02D

4 2 R36, R44 RES~86.6Ω~1%~1/16W 0603 VISHAY, CRCW060386R6FKEA

5 1 R45 RES~86.6Ω~1%~1/16 0402 VISHAY, CRCW040286R6FKED

6 1 T1 BALUN~RF~SMT~1:1 M/A-COM, MABA-007159-000000 (PbF)

7 1 T2 XFRM~RF~SMT~1:1CT M/A-COM, MABAES0060 (PbF)

8 1 U2 ADC~16-BIT~80Msps LINEAR, LTC2216IUP#PBF

9 1 FAB, PRINTED CIRCUIT BOARD DEMO CIRCUIT 996B

DC966B-H

1 1 C8 CAP~NPO~1.8pF~50V~0.25pF 0402 AVX, 04025A1R8CAT2A

2 2 C9-10 CAP~NPO~3.9pF~50V~0.25pF 0402 AVX, 04025A3R9CAT2A

3 1 L1 IND~18nH~5% 0603 MURATA, LQP18MN18NG02D

4 2 R36, R44 RES~43.2Ω~1%~1/16W 0603 VISHAY, CRCW060343R2FKEA

5 1 R45 RES~182Ω_JUMPER 0402 VISHAY, CRCW0402182RFKED

6 1 T1 BALUN~RF~SMT~1:1 M/A-COM, MABA-007159-000000 (PbF)

7 1 T2 TRANSFORMER, WBC1-1TL Coilcraft, WBC1-1TLC

8 1 U2 ADC~16-BIT~80Msps, LINEAR, LTC2216IUP#PBF

9 1 FAB, PRINTED CIRCUIT BOARD DEMO CIRCUIT #996B

DC966B-I

1 1 C8 CAP~NPO~4.7pF~50V~0.25pF 0402 AVX, 04025A4R7CAT2A

2 2 C9-10 CAP~NPO~8.2pF~50V~0.25pF 0402 AVX, 04025A8R2CAT2A

3 1 L1 IND~56nH~5% 0603 MURATA, LQP18MN56NG02D

4 2 R36, R44 RES~86.6Ω~1%~1/16W 0603 VISHAY, CRCW060386R6FKEA

6 1 T1 (Bal to 1098A-F) BALUN~RF~SMT~1:1 M/A-COM, MABA-007159-000000 (PbF)

7 1 T2 (Bal to 1098A-C) XFRM~RF~SMT~1:1CT M/A-COM, MABAES0060 (PbF)

8 1 U2 ADC~16-BIT~65Msps LINEAR, LTC2215IUP#PBF

9 1 FAB, PRINTED CIRCUIT BOARD DEMO CIRCUIT 996B

DC966B-J

1 1 C8 CAP~NPO~1.8pF~50V~0.25pF 0402 AVX, 04025A1R8CAT2A

2 2 C9-10 CAP~NPO~3.9pF~50V~0.25pF 0402 AVX, 04025A3R9CAT2A

3 1 L1 IND~18nH~5% 0603 MURATA, LQP18MN18NG02D

4 2 R36, R44 RES~43.2Ω~1%~1/16W 0603 VISHAY, CRCW060343R2FKEA

5 1 R45 RES~182Ω_JUMPER 0402 VISHAY, CRCW0402182RFKED

6 1 T1 BALUN~RF~SMT~1:1 M/A-COM, MABA-007159-000000 (PbF)

7 1 T2 TRANSFORMER, WBC1-1TL Coilcraft, WBC1-1TLC

8 1 U2 ADC~16-BIT~65Msps, LINEAR/LTC2215IUP#PBF

9 1 FAB, PRINTED CIRCUIT BOARD DEMO CIRCUIT #996B

PARTS LIST

dc996f

DEMO MANUAL DC996

SCHEMATIC DIAGRAM

dc996f

DEMO MANUAL DC996

Information furnished by Linear Technology Corporation is believed to be accurate and reliable.

However, no responsibility is assumed for its use. Linear Technology Corporation makes no representa-

tion that the interconnection of its circuits as described herein will not infringe on existing patent rights.

SCHEMATIC DIAGRAM

dc996f

DEMO MANUAL DC996

Linear Technology Corporation

1630 McCarthy Blvd., Milpitas, CA 95035-7417

(408) 432-1900 ● FAX: (408) 434-0507 ● www.linear.com

LT 0512 • PRINTED IN USA

DEMONSTRATION BOARD IMPORTANT NOTICE

Linear Technology Corporation (LTC) provides the enclosed product(s) under the following AS IS conditions:

This demonstration board (DEMO BOARD) kit being sold or provided by Linear Technology is intended for use for ENGINEERING DEVELOPMENT

OR EVALUATION PURPOSES ONLY and is not provided by LTC for commercial use. As such, the DEMO BOARD herein may not be complete

in terms of required design-, marketing-, and/or manufacturing-related protective considerations, including but not limited to product safety

measures typically found in finished commercial goods. As a prototype, this product does not fall within the scope of the European Union

directive on electromagnetic compatibility and therefore may or may not meet the technical requirements of the directive, or other regulations.

If this evaluation kit does not meet the specifications recited in the DEMO BOARD manual the kit may be returned within 30 days from the date

of delivery for a full refund. THE FOREGOING WARRANTY IS THE EXCLUSIVE WARRANTY MADE BY THE SELLER TO BUYER AND IS IN LIEU

OF ALL OTHER WARRANTIES, EXPRESSED, IMPLIED, OR STATUTORY, INCLUDING ANY WARRANTY OF MERCHANTABILITY OR FITNESS

FOR ANY PARTICULAR PURPOSE. EXCEPT TO THE EXTENT OF THIS INDEMNITY, NEITHER PARTY SHALL BE LIABLE TO THE OTHER FOR

ANY INDIRECT, SPECIAL, INCIDENTAL, OR CONSEQUENTIAL DAMAGES.

The user assumes all responsibility and liability for proper and safe handling of the goods. Further, the user releases LTC from all claims

arising from the handling or use of the goods. Due to the open construction of the product, it is the user’s responsibility to take any and all

appropriate precautions with regard to electrostatic discharge. Also be aware that the products herein may not be regulatory compliant or

agency certified (FCC, UL, CE, etc.).

No License is granted under any patent right or other intellectual property whatsoever. LTC assumes no liability for applications assistance,

customer product design, software performance, or infringement of patents or any other intellectual property rights of any kind.

LTC currently services a variety of customers for products around the world, and therefore this transaction is not exclusive.

Please read the DEMO BOARD manual prior to handling the product. Persons handling this product must have electronics training and

observe good laboratory practice standards. Common sense is encouraged.

This notice contains important safety information about temperatures and voltages. For further safety concerns, please contact a LTC application

engineer.

Mailing Address:

Linear Technology

1630 McCarthy Blvd.

Milpitas, CA 95035