1. Diamond D10 Test Platform

2. Diamond 10 Test System
The Diamond 10 test system contains the following digital hardware:
• cPCI backplane—The 10-slot backplane serves as a physical receptacle for Diamond Series instruments. The backplane uses the compact PCI (cPCI) standard, whichallows any instrument to be in any slot and facilitates the use of third party instruments.
• Instruments—Connect to the cPCI backplane and provide channel connections to the device under test (DUT). The available instruments are:
– DPIN96 digital instrument
– DPS16 device power supply (DPS)
– VIS16 voltage/current source
– Multiwave
– DIB Utility instrument

3. Software System Components
The Diamond Series software uses:
• Linux operating system
• C++ programming language
• Standard Tester Interface Language (STIL)

4. Software System Components
The Diamond Series software uses:
• Linux operating system
• C++ programming language
• Standard Tester Interface Language (STIL)

5. DPIN96 Digital Instrument
The features of the DPIN96 digital instrument are:
• 96 channels per instrument
• Per-pin timing, formatting, and levels
• On-the-fly format and timeset switching
• Per-pin programmable super voltage that can be triggered from the pattern
• Go/no-go per-pin PMU
• Precision ADC PMU per instrument
• Frequency and interval counter per instrument
• Reconfigurable Pattern memory that supports both parallel and scan vectors
• Pattern Capture memory that captures pass/fail data on selected vectors

6. DPIN96 Digital Instrument Specification
Feature Specification
Data Rates
Sequencer instruction rate 8 kHz – 100 MHz
Maximum clock rate MHz
Maximum capture data rate Mbps per channel
Driver
Range V – +6.0 V
Resolution μV
Accuracy ±20 mV
Comparator
Range V – +6.0 V
Accuracy ±35 mV
Timing and Format
Edges per cycle 4
Edge Resolution ps
Format sets combinations of per pin format
Time sets combinations of period and per pin timing
Drive edge accuracy ±350 ps
Compare edge accuracy ±350 ps

7. DPIN96 Digital Instrument Continued
Feature Specification
Vector Memory
Maximum parallel vector depth M
Maximum scan vector depth M (2 chains), 576 M (4 chains),
288 M (8 chains), 144 M (16 chains)
Maximum capture memory depth M (1 bit per cycle)
Frequency Counter
Maximum frequency MHz
Resolution ns interval, 32 bit count
Per pin Parametric Measurement Unit
Voltage range V – +6.5 V
Force voltage accuracy ±20 mV
Measure voltage accuracy ±20 mV
Current ranges ±32 mA, ±8 mA, ±2 mA, ±512 μA,
±128 μA, ±32 μA, ±8 μA, ±2 μA
Force current accuracy 2% of range ±30 nA
Measure current accuracy 4% of range
Super Voltage Driver and Load
Voltage range V – +12 V
Resolution μV
Accuracy ±20 mV

8. DPS16 Device Power Supply
The DPS16 device power supply has 16 supplies per instrument. Table 4 shows the
highlights of the DPS16 specification.

9. DPS16 Device Power Supply Specification
Feature Specification
Voltage Force
Range – 6 V
Resolution bits
Accuracy % of value ±1 mV
Voltage Measure
Ranges V, 8 V
Resolution bits
Accuracy % of value ±1 mV
Current Measure
Maximum output 2 A per channel, gangable to 16 A
Ranges ±200 μA, ±2 mA, ±200 mA, ±2 A
Accuracy % of value ±0.1% of range

10. VIS16 Voltage/Current Source
The features of the VIS16 voltage/current source are:
• Sixteen voltage/current sources per instrument
• Four quadrant voltage/current sourcing capability
• Single-ended or differential voltage measurements

11. VIS16 Voltage/Current Range Specifications
Feature Specification
Channels Per Instrument 16
±60 V mA per channel, gangable to 200 mA
±20 V mA per channel, gangable to 600 mA
VIS16 Force Voltage Specifications
Range Resolution Accuracy
±2 V bit ±0.03% FSR
±6 V bit ±0.03% FSR
±20 V bit ±0.03% FSR
±60 V bit ±0.03% FSR
VIS16 Current Clamp Specifications
Range Resolution Accuracy
±300 nA bit ±0.2% FSR +1 nA/V
±3 μA bit ±0.05% FSR +1 nA/V
±300 μA bit ±0.05% FSR
±3 mA bit ±0.05% FSR
±30 mA bit ±0.05% FSR
±300 mA (100 mA) 16 bit ±0.05% FSR

12. VIS16 Measure Voltage Specifications
Range Resolution Accuracy
±2 V bit ±0.03% FSR
±6 V bit ±0.03% FSR
±20 V bit ±0.03% FSR
±60 V bit ±0.03% FSR
VIS16 Measure Current Specifications
Range Resolution Accuracy
±300 nA bit ±0.2% FSR +1 nA/V
±3 μA bit ±0.05% FSR +1 nA1/V
±300 μA bit ±0.05% FSR
±3 mA bit ±0.05% FSR
±30 mA bit ±0.05% FSR
±300 mA (100 mA) 16 bit ±0.05% FSR
VIS16 Differential Voltage Measurment Specifications
Range Accuracy
±20 mV % FSR1
±200 mV % FSR
±2.00 V % FSR
±5 V % FSR
CMRR dB

13. MULTI_WAVE Instrument
8 Wide bandwidth DSP channels per single slot board
High Resolution Path on Solder Side
High Speed Path on Component Side
MULTI_WAVE combines high frequency and high accuracy in one instrument

14. Multiwave Instrument features
4 D/A Channels and 4 A/D Channels per Board
Fully Differential Inputs and Outputs
High Speed and High Resolution Path per Channel
High Accuracy Force/Sense PMU per Channel
2MS (HF) / 1MS (LF) Memory per Channel
Built-in Self Test and Calibration Unit
2 Independent Master Clocks per instrument
Clock Divider per Channel
SYNC Tracks for Pattern Synchronization
Flexible Trigger Modes

15. MULTI_WAVE Wideband Waveform Generator
High speed mode
0 …250 MSPS sampling rate
16 bit resolution
LPF ( 1.2 MHz, 12 MHz , 50 MHz , BYP )
output mode single ended / differential ( 50 ohms terminated )
output ranges +/-3.4(4.0) V, +/-2.0V, +/-1.0 V, +/-0.5 V (open load)
High resolution mode
kS/s sampling rate
24 bit resolution
LPF 1.4 kHz , 5 kHz , 10 kHz , 25 kHz , 110 kHz , bypass
output mode single ended / differential
output ranges +/-10 V, +/-5 V, +/-2.5 V , +/-1.25 V
Kelvin mode selectable

16. MULTIWAVE—HIGH PRECISION (AUDIO) GENERATOR PATH Specifications
Feature Specification
AWG Channels/Unit 4 Differential
DAC Resolution bit
High Precision (Audio) Generator Path DC Output Specifications
Range Resolution Accuracy
±10 V μV ±(0.1% μV)
±5 V nV ±(0.1% μV)
± nV ±(0.1% μV)
± nV ±(0.1% μV)
High Precision (Audio) Generator Path Specifications (Sheet 1 of 2)
Feature Minimum Typical Maximum
Sampling Rate kS/s kS/s Resolution: 10 μHz
Bandwidth AC kHz
Max Output Level Absolute V V
Output Impedance < 5 Ohm
Output Modes - Single Pos, Single Neg, Differential
Kelvin Output - Force/Sense for pos. and neg. output

17. High Precision (Audio) Generator Path Specifications
Feature Minimum Typical Maximum
Common Mode Voltage ±10.00 V
AC Performance :
THD dB dB
SFDR dB dB
SNR (0.1–25 kHz) dB dB
High Precision (Audio) Generator Path Filter Specifications
Feature Specification Comments
Selectable LP Filter (-3 dB) kHz 6 pole Butterworth
5.0 kHz 6 pole Butterworth
10 kHz 4 pole Butterworth
25 kHz 4 pole Butterworth
110 kHz 4 pole Butterworth
Bypass

18. MULTIWAVE—HIGH PRECISION (AUDIO) DIGITIZER PATH SPECIFICATIONS
Feature Specification Comments
Digitizer Channels/Unit Differential
ADC Resolution 24 bit
High Precision (Audio) Digitizer Path Voltage Range (AC+DC) Specifications
Range Resolution Accuracy Comments
Single Ended
±10 V μV ±(0.1% μV) Low or high input
±5 V nV ±(0.1% μV) connected to GND
± nV ±(0.1% μV)
± nV ±(0.1% μV)
Differential (Vpos–Vneg)
±20.00 Vpp 2.6 μV ±(0.1% μV) Input differential
±10.00 Vpp 1.3 μV ±(0.1% μV) connected
±5.00 Vpp 650 nV ±(0.1% μV)
±2.50 Vpp 325 nV ±(0.1% μV)

19. High Precision (Audio) Digitizer Path Specifications
Feature Minimum Typical Maximum Comments
Sampling Rate 48 kS/s MS/s Resolution: 10 μHz
Bandwidth AC kHz
Max Input Level V V
Input Bias Current < 1μA
Input Modes - Single Pos, Single Neg, Differential
Feature Minimum Typical Maximum Comments
AC Performance
THD dB dB
SFDR
SNR (0.1–25 kHz)
High Precision (Audio) Digitizer Path Filter Specifications
Feature Specification Comments
Selectable LP Filter (-3 dB) 1 kHz Notch dB Attenuation
25 kHz 4 pole Butterworth
100 kHz 4 pole Butterworth
250 kHz 4 pole Butterworth
Bypass

20. DIBU Instrument (Device Interface Board)
The DIB Utility instrument contains:
• Loadboard reference clocks
– 400 MHz calibration reference clock—Used for calibration routines
– 10 MHz reference clock—Synchronizes device or equipment reference clocks to
the system reference clock
– DUT clock (CLK_DUT)—Synchronizes the system clocks to an externally
supplied clock
• Loadboard power supplies
– ±5 3 A user power supply
– +5 5 A relay power supply
– A user power supply
– A isolated power supply (floating from ground)
• Loadboard utilities
– Control bits (CBITs)—64 bits that control relays and logic on the loadboard
– DIB present—Detects whether or not the loadboard is connected
– Calibration bus (6 wire)—Provides the link to the external meter
– DIB ground sense—Provides the loadboard ground sense

21. • Loadboard busses
– ID programmable read only memory (IDPROM) bus
– General Purpose Inter-IC (I2C) bus
– Serial Peripheral interface (SPI) bus
– General Purpose Input Output (GPIO) bus
– Scope Test Point (TP) bus
• Power supplies for third party cPCI instruments
– 48 V system power
– A power supply
– ±12 2 A power supply
The DIB Utility instrument must reside in slot 9.