1. Verigy V93000 Service Training
Module 21:
Analog Board
Overview
Module 27: Support Necessities
Objective:
Given:
Study Guide
Quiz
Answer questions concerning support necessities needed for increased uptime for the V93000 test platform. 90% correct answers are required to get credit for this module.

2. Analog Board Overview Source / Measure Source Measure Measure DUT NEW
Note:
3 letter descriptions are software ID (SW ID) which are used in the setup files and application programs to specify the hardware.
See configuration document issued by Configuration Management Team of SOCBU.
NEW
21 - Analog Board

3. Analog Product Cheat Sheet
Description:
Product Name: Official product name shown in the “Product” column at ePAL. At 4.0 release, naming of analog module is maintained by using sample rate or bandwidth.
Function: Functional category of the module. It also indicates frequency range.
SWID: Software identifier of the module. It is used in model file.
Filling Order: Slot numbers (group 6, cage 8) and (group 7, cage 6) are available in large test head system only.
Pogo Cable: Type of pogo cable. There are 3 types of the pogo cable identified by cable color.
SW Rev.: The module does work on this revision or higher.
Relationship between UHSAWG (E9696A, E9696B, E9696C) and Additional Support Rack (E9695A , E9695B):
E9696A, E9696B must be installed in E9695A (support starts rev. 2.2).
E9696B changes from E9696A: Chassis isolation, cable.
E9696C must be installed in E9695B.
E9695B changes: Obsolete shared isolation transformer for UHSAWG.
E9696C changes: Own isolation transformer.
E9703A support part
E /69052 are the latest support part according to the board revision up. No specification change. Product is still ‘A’ revision.
21 - Analog Board

4. Analog Product Cheat Sheet
Note :
See the following list for the initial supported software revision of each analog option.
21 - Analog Board

5. Analog Board Product Cheat Sheet
Note :
21 - Analog Board

6. AWG / Digitizer / Sampler / DPS
Note:
21 - Analog Board

7. Analog Board Multi-site Analog (MCA, MCB, MCC)
Note:
21 - Analog Board

8. Analog Board Filling Rule 4CC
MCA/Bsm : MCA (E9714A) or MCB (E9722A/B) Source & Measure
MCA/Bm : MCA (E9715A) or MCB (E9723A/B) Measure
MCC: MCC (E9726A/B) Multi-Site Giga Sampler
Group 1 (Cage 3)
DPS GP1/MS1
Digital DC-DC
Group 3 (Cage 1)
DPS GP3/MS3
Group 2 (Cage 4)
DPS2 HC1/GP2/MS2
Group 8 (Cage 2)
Analog DC-DC
CLK Clock (Master)
CLK Clock (Slave)
CLK Clock (Master)
CLK Clock (Slave)
226 SPA1/SPB1/ MCC1
225 TIA1 A/B
232 WGA/E1/ MCA/Bsm2
231 WGA/E2/ MCA/Bsm1
230 WGB1/WGD1
229 WGC1,3/WGF1
228 WDB/E1/ MCA/Bm1
227 WDA1/WDD1/WDG1
DPS LN1/GP8/MS8 10 9 8 7 6 5 4 3 2 1
11,12
13,14
To Manipulator
Slot Index
Digital /302
Digital /102
Digital /308
Digital /306
Digital /304
Digital /104
Digital /106
Digital /108
Digital /324
Digital /124
Digital /318
Digital /320
Digital /322
Digital /122
Digital /120
Digital /118
Digital /110
Digital /310
Digital /116
Digital /114
Digital /112
Digital /312
Digital /314
Digital /316
Test Head Bottom View
PinScale Numbering
Single Density
Numbering
Note:
21 - Analog Board

9. Analog Board Filling Rule 8CC
Digital /302
Digital /102
Digital /308
Digital /306
Digital /304
Digital /104
DPS GP1/MS1
Digital DC-DC
Digital /106
Digital /108
Group 3 (Cage 1) Group 4 (Cage 5)
Digital /324
Digital /124
Digital /318
Digital /320
Digital /322
Digital /122
DPS GP3/MS3
Digital /120
Digital /118
Digital /332
Digital /132
Digital /326
Digital /328
Digital /330
Digital /130
DPS GP4/MS4
Digital /128
Digital /126
Digital /402
Digital /202
Digital /408
Digital /406
Digital /404
Digital /204
DPS GP5/MS5
Digital /206
Digital /208
Group 6 (Cage 8) Group 2 (Cage 4)
DPS LN2/GP7/MS7
Digital /110
Digital /310
Digital /116
Digital /114
Digital /112
Digital /312
DPS HC1/GP2/MS2
Digital /314
Digital /316
Group 7 (Cage 6) Group 8 (Cage 2)
Analog DC-DC
Group 1 (Cage 3) Group 5 (Cage 7)
CLK Clock (Slave)
CLK Clock (Master)
CLK Clock (Slave)
CLK Clock (Master)
CLK Clock (Master)
CLK Clock (Slave)
CLK41 (Master)
CLK Clock (Slave)
210 SPA2/SPB2/ MCC2
209 TIA2 A/B
216 WDB/E3/ MCA/Bm3
215 WDA3/WDD3/WDG3
214 WDA4/WDD4/WDG4
213 WDB/E4/ MCA/Bm4
212 WDB/E2/ MCA/Bm2
211 WDA2/WDD2/WDG2
226 SPA1/SPB1/ MCC1
225 TIA1 A/B
232 WGA/E1/ MCA/Bsm2
231 WGA/E2/ MCA/Bsm1
230 WGB1/WGD1
229 WGC1,3/WGF1
228 WDB/E1/ MCA/Bm1
227 WDA1/WDD1/WDG1
DPS LN1/GP8/MS8
218 SPA3/SPB3/ MCC3
Blank
224 WGA/E3/ MCA/Bsm3
223 WGB3/WGD3
222 WGB2/WGD2
221 WGC2,4/WGF2
220 WDB/E5/ MCA/Bm5
219 WDA5/WDD5/WDG5
DPS7 LN3/GP6/MS6 10 9 8 7 6 5 4 3 2 1
11,12
13,14
Slot Index
To Manipulator
Test Head Bottom View
PinScale Numbering
Single Density
Numbering
Note:
DC/DC requirement1 : All analog boards (except PPS) require analog dc-dc (supply 16V).
DC/DC requirement2 : PPS requires digital dc-dc (supply 3.3 V). Installing PPS to analog card cage (supply 16V) will damage the PPS.
Pogo location : Analog pogo block must locates in S2 position.
Upgrade notice : Assuming WGB exists already in When user install both WGB and WGD afterward, you don’t need to move installed WGB230. Installed board (WGB) has higher priority. Install new WGB in 222 (WGB-2/WGD-2 position) and WGD in 223 (WGB-3/WGD-3 position).
TIA : 209 and 225 allow to install TIA, since the TIA diagnostics and calibration require dedicated circuit on the Analog ACU.
MCA (AV8) filling rule consideration : MCA S&M follows the filling order of WGA. MCA M follows the filling order of WDB. These are basic rules for MCA. As an exceptional rule, filling order at 1st and 2nd MCA S&M is exchanged, because there are many WGA installed systems in test house (231 is vacant in most systems). Installing MCA pogo cable to many systems is cost and time consuming.
21 - Analog Board

10. Large Interface Small Interface
Analog Board Filling Rule DUT Interface
To Manipulator
Group 7 (Cage 6) Group 8 (Cage 2-LTH / Cage4-STH) Group 2 (Cage 4-LTH / Cage2-STH) Group 6 (Cage 8)
Large Interface Small Interface
DPS7 LN3/GP6/MS6
UTILITY
DPS8 LN1/GP8/MS8
UTILITY
DPS2 HC1/GP2/MS2
UTILITY
DPS6 LN2/GP7/MS7
UTILITY
224 WGA3/WGE3/
MCA/Bsm3
220 WDB5/WDE5/
MCA/Bm5
232 WGA1/WGE1/
MCA/Bsm2
228 WDB1/WDE1/
MCA/Bm1
116
112
216 WDB3/WDE3/
MCA/Bm3
212 WDB2/WDE2/
MCA/Bm2
224 MCA/Bsm3
220 MCA/Bm5
232 MCA/Bsm2
228 MCA/Bm1
Digital
Digital
216 MCA/Bm3
212 MCA/Bm2
223 WGB3/WGD3
219 WDA5/WDD5/
WDG5
231 WGA2/WGE2/
MCA/Bsm1
227 WDA1/WDD1/
WDG1
115
111
215 WDA3/WDD3/
WDG3
211 WDA2/WDD2/
WDG2
223
219
231 MCA/Bsm1
227
Digital
Digital
215
211
222 WGB2/WGD2
218 SPA3/SPB3
MCC3
230 WGB1/WGD1
226 SPA1/SPB1
MCC1
114
110
214 WDA4/WDD4/
WDG4
210 SPA2/SPB2
MCC2
222
218 MCC3
230
226 MCC1
Digital
Digital
214
210 MCC2
221 WGC2,4/WGF2
217 (Blank)
229 WGC1,3/WGF1
225 TIA1
113
109
213 WDB4/WDE4/
MCA/Bm4
209 TIA2
221
217
229
225
Digital
Digital
213 MCA/Bm4
209
Digital
Digital
Digital
Digital
Digital
Digital
Digital
Digital
125
129
117
121
101
105
201
205
Digital
Digital
Digital
Digital
Digital
Digital
Digital
Digital
126
130
118
122
102
106
202
206
Digital
Digital
Digital
Digital
Digital
Digital
Digital
Digital
127
131
119
123
103
107
203
207
Digital
Digital
Digital
Digital
Digital
Digital
Digital
Digital
128
132
120
124
104
108
204
208
UTILITY
DPS4 GP4/MS4
UTILITY
HC2/HV1/GP3/MS3
UTILITY
DPS2 GP1/MS1
UTILITY
DPS5 HV2/GP5/MS5
Group 4 (Cage 5) Group 3 (Cage1-LTH / Cage1-STH) Group 1 (Cage3-LTH / Cage2-STH) Group 5 (Cage 7)
Note:
21 - Analog Board

11. Analog Board Pogo Block Location
Group 8 (Cage 2-LTH / Cage 4-STH)
Orientation marker points to the inside of the test head.
S2 for analog
S1 for digital
DPS
S2 for analog
S1 for digital
S2 for analog
S1 for digital
S2 for analog
S1 for digital
S2 for analog
S1 for digital
Utility
S2 for analog
S1 for digital
S2 for analog
S1 for digital
S1 for digital
S2 for analog
Pin Pin 1
Pogo Block Layout at DUT Interface
Different pogo block location from digital channel card.
Install analog pogo blocks at “S2” position. (AWG, Digitizer, Sampler, & TIA. See next slide for MCA)
Install PPS pogo blocks at “S1” position.
Install digital pogo blocks at “S1” position.
Orientation marker must point to the inside of the test head. This is general rule in any type of pogo block.
Important!
With PinScale systems, the numbering rule for analog dedicated slots (S2) has kept the same as it was on SD systems.
For Example:
Analog block 232-S2 is equivalent to digital block 432.
DUT Interface Top View
Note:
Pogo block for all analog module (except for PPS) should place in S2 position. This rule applies as well to the cage 6 and cage 8 analog cages equivalent.
PPS should place in S1 position.
Orientation marker always points inside of the test head. This is common rule for any type of pogo block.
See “Adding or Replacing Pogo Blocks of Service Guide Part 2”.
Numbering rule in analog dedicated slot (S2) will be update at double density system release. S2 slot will have +200 offset numbers. For example S2 of 232 becomes 432.
21 - Analog Board

12. Analog Board Pogo Block Location – MCA / MCB
Pogo Block Layout at DUT Interface and Pogo Cable
Use E9716A pogo cable (exchange: E ).
It branches out into two analog pogo blocks. You can identify installing position (S1/S2) by labels (P1/P2).
Connector (interfacing to MCA/MCB board) is different from other analog boards’. Other analog boards can’t connect.
Orientation marker must point to the inside of the test head. This is general rule in any type of pogo block.
Group 8 (Cage 2-LTH / Cage 4-STH)
Utility
Pin Pin 1
S1 for digital
S2 for analog
S1 for digital
Recommended
MCA slot
DPS
S2 for analog
S1 for analog
S2 for analog
S1 for digital
S2 for analog
S1 for digital
S2 for analog
S1 for analog
S2 for analog
S1 for analog
S2 for analog
S1 for analog
S2 for analog
P1 for S1 position
Orientation marker points
to the inside of the TH.
P2 for S2 position
DUT Interface
Top View
E9716A MCA/MCB Pogo Cable Assy.
Note:
Slot 225 is impossible to install multi-channel analog (225 S2 is designed for TIA, which requires different AACU circuitry.)
Numbering rule in analog dedicated slot (S2) will be update at double density system release. S2 slot will have +200 offset numbers. For example S2 of 232 becomes 432.
21 - Analog Board

13. Analog Board Pogo Block Location – MCC
Pogo Block Layout at DUT Interface and Pogo Cable
Use E9727A pogo cable (exchange: E ).
It branches out into two analog pogo blocks. You can identify installing position (S1/S2) by labels (A/B).
Connector (interfacing to MCC board) is different from other analog boards’. Other analog boards can’t connect.
Orientation marker must point to the inside of the test head. This is general rule in any type of pogo block.
Group 8 (Cage 2-LTH / Cage 4-STH)
DPS
Utility
S2 for analog
S2 for analog
S1 for analog
S1 for analog
S2 for analog
S2 for analog
S1 for analog
S1 for analog
S2 for analog
S2 for analog
S1 for digital
S1 for analog
S2 for analog
S2 for analog
A for S1 position
S1 for digital
S1 for digital
Recommended
MCC slot
Pin Pin 1
DUT Interface
Top View
Orientation marker points
to the inside of the TH.
B for S2 position
E9727A MCC Pogo Cable Assy.
Note:
Slot 225 is impossible to install multi-channel analog (225 S2 is designed for TIA, which requires different AACU circuitry.)
Numbering rule in analog dedicated slot (S2) will be update at double density system release. S2 slot will have +200 offset numbers. For example S2 of 232 becomes 432.
21 - Analog Board

14. Analog Pogo Pin Layout Orientation Marker a b c 01 a b c 02 03 : 17
Note:
For Sampler, pin 9, 11, 13, and 15 are not used as it doesn’t have negative input pins.
For AWG (except for UHS AWG), Digitizer, and Sampler, pin 1 (STATUS2), pin 2 (STATUS1), and pin 3 (SYNC DATA) are not used currently. These pins for the future enhancements. Only UHS AWG uses these pins.
21 - Analog Board

15. Analog Board Pogo Pin Layout
S S1 01 02 03 : 17
Orientation Marker
a b c
a b c
a b c
a b c 01 02 03 : 17
Note:
21 - Analog Board

16. Analog Board Pogo Pin Layout
S S1 01 02 03 : 17
Orientation Marker
a b c
a b c
a b c
a b c 01 02 03 : 17
Note:
21 - Analog Board

17. Analog Board Pogo Pin Layout
S S1 01 02 03 : 17
Orientation Marker
a b c
a b c
a b c
a b c 01 02 03 : 17
Note:
21 - Analog Board

18. Analog Board Pogo Cable
E9713A
(Exchange: E )
E9716A
(Exchange: E )
E6998H
Exchange (E )
E9727A
(Exchange: E )
NEW
Note:
Use E6998H yellow cable for some analog modules.
E6998H (E ) is for SOC DUT I/F. (Long length)
E6998G (E ) is for F330 DUT I/F. (Short length)
Screws are commonly used for E6998H, E6998G, E9713A, and E9716A.
x 2ea (For fixing connector)
x 2ea/4ea (For fixing pogo blocks)
Same pogo pin is used for digital/analog (E6998H, E9713A, E9716A).
(Pogo pins signal, 50pins/bag)
21 - Analog Board

19. Analog Calibration Unit (E9693C)
Analog Auto Calibration Unit (AACU)
AACU is used for calibration and diagnostics of all analog boards.
AACU doesn’t have any components/devices, which require NIST calibration.
Use label to identify ACU1 or ACU2
AACU Board with Cover
Note:
Replacement part number difference for ACU1 and ACU2
ACU1 replacement part number : E
ACU2 replacement part number : E
New part (replacement) number of ACU1 and ACU2 are different. On-board EEPROM in ACU1 was programmed with E data and system software allows only ACU programmed with E data.
TIA slot 225/209 (E9693A and E9693C)
TIA requires different diagnostics/calibration circuitry from other analog boards (AWG, digitizer, MCA). Therefore, slot 225 and 209 don’t support the these analog boards.
Label notice for replacement part (68052 parts)
(For your information) E x replacement part has 6105x label, as only 6105x and 6905x board id (on-board EEPROM) are recognized by system software. If you receive 6105x board as replacement part, it is not a logistics or ordering issue.
Cover
For the parts protection purpose, AACU has cover on the board. Initial shipment of Analog ACU1 didn’t have the protector. Please handle it carefully not hit the parts on the AACU board.
21 - Analog Board

20. LF Source (WGA, WGE)
Key Specifications
Note:
21 - Analog Board

21. VHF/UHF Source (WGB, WGC, WGD, WGF) Key Specifications
WGC detail is written in the next chapter.
Note:
21 - Analog Board

22. WGB, WGD, WDD, SPA, SPB, (WDG)
Master-Slave Connection
224
223 WGB
222 WGB
221
220
219
218
217
TRIG IN
TRIG OUT
Note for Master-Slave Connection
Share the one trigger signal between the analog boards which are connected by the master-slave connection.
This (called “Master Trigger Function”) resolves the timing uncertainty between the analog modules.
Master-slave connection makes closed loop through TRIG IN and TRIG OUT pins. WGB, WGD, WDD, SPA, and SPB have TRIG IN/TRIG OUT connectors. Use Synchro Cable (E ), which is furnished with these boards.
Among the same of WGB, WGD, WDD, SPA, or SPB in the same cage can use master trigger function.
Model file description is necessary to use the master trigger function. (Refer to model file slide for WGB, WGD, WDD, SPA, and SPB.)
Master trigger function test in diagnostics is executed in low level diagnostics. You must configure TRIG IN and TRIG OUT loop back path for it.
WDG has the master-slave function, but you don’t need to wire. (as of 4.3 release) It is future enhancement item.
Location of Trigger In/Out Connectors
Only for WDG (E9720A) board, cable is soldering. This is future enhancement. Leave the cable as it is.
When you choose diagnostics the master-slave function, you must make trigger in to trigger out closed loop in each board as shown in the picture right.
Example
2 WGB in cage 6 (group 7)
Trigger Trigger
Out In
Closed loop connection for diagnostics
Note
Master trigger function achieves the timing skew between the analog modules within +/- 1ns for AWGs, and +/- 1ns for samplers.
2 or more SPA cards installation in a card gage is not defined configuration management except for special configuration. (See filling rule slide.) Therefore, master-slave connection can be seen in WGB, WGD, or WDD installation normally.
A WGB and a WGD installation in the same cage, master trigger function doesn’t work.
Use of master trigger function is specified in the test program. Master trigger module is also defined in the test program (by firmware command).
Wiring and model file description are necessary as installation. About the model file description, see example model file in the AWG detail slide.
See “Master Trigger Function” in “System Reference” for detail.
21 - Analog Board

23. Model File of AWG, WGA, WGE, WGF
ANALOGBOARD
232: TYPE=WGA, CORE=1
231: TYPE=WGA, CORE=1
In case of two WGA installation.
Core is always 1.
ANALOGBOARD
232: TYPE=WGE, CORE=2
231: TYPE=WGE, CORE=2
In case of two WGE installation.
Core is always 2.
ANALOGBOARD
229: TYPE=WGF, CORE=1
221: TYPE=WGF, CORE=1
In case of two WGF installation.
Core is always 1.
Note:
21 - Analog Board

24. Model File of AWG, WGB, WGD
Only 1 WGB is installed in each cage, TRIG_IN parameter is not necessary.
In case of 2 or more WGB (at 222 & 223) in the same cage, TRIG_IN must be set.
Only 1 WGD is installed in each cage, TRIG_IN parameter is not necessary.
In case of 2 or more WGD (at 222 & 223) in the same cage, TRIG_IN must be set.
ANALOGBOARD
230: TYPE=WGB, CORE=1
222: TYPE=WGB, CORE=1
Core is always 1.
ANALOGBOARD
230: TYPE=WGB, CORE=1
222: TYPE=WGB, CORE=1, TRIG_IN=223
223: TYPE=WGB, CORE=1, TRIG_IN=222
Describe slot number where the master/slave trigger comes from
ANALOGBOARD
230: TYPE=WGD, CORE=1
222: TYPE=WGD, CORE=1
Core is always 1.
ANALOGBOARD
230: TYPE=WGD, CORE=1
222: TYPE=WGD, CORE=1, TRIG_IN=223
223: TYPE=WGD, CORE=1, TRIG_IN=222
Describe slot number where the master/slave trigger comes from
Note:
TRIG_IN is for the master trigger function of the analog synchronization feature and it specifies the module location where the TRIG_IN connector connect to.
See “Master Trigger Function” in “System Reference” for detail.
21 - Analog Board

25. Digitizer WDB, WDE, WDA, WDD, WDG
Key Specifications
Note:
21 - Analog Board

26. Model File of Digitizer WDA, WDB, WDE, WDG
ANALOGBOARD
227: TYPE=WDA, CORE=1
211: TYPE=WDA, CORE=1
Core is always 1.
In case of two WDA installation.
227: TYPE=WDG, CORE=1
211: TYPE=WDG, CORE=1
Core is always 1
In case of two WDG installation.
228: TYPE=WDB, CORE=1
212: TYPE=WDB, CORE=1
In case of two WDB installation.
228: TYPE=WDE, CORE=2
212: TYPE=WDE, CORE=2
Core is always 2
In case of two WDE installation.
Note:
21 - Analog Board

27. Model File of Digitizer WDD
ANALOGBOARD
227: TYPE=WDD, CORE=1
211: TYPE=WDD, CORE=1
In case of two WDD installation.
Core is always 1.
In case of four WDD installation.
If 2 or more WDD (215 & 214) are installed in the same card cage, you set TRIG-IN parameters.
ANALOGBOARD
227: TYPE=WDD, CORE=1
211: TYPE=WDD, CORE=1
215: TYPE=WDD, CORE=1, TRIG_IN=214
214: TYPE=WDD, CORE=1, TRIG_IN=215
Slot number where the master/slave trigger comes from
Note:
21 - Analog Board

28. Sampler (SPA, SPB, WDD, MCC)
Key Specifications
Note:
21 - Analog Board

29. Model File of Sampler SPA, SPB
Only 1 SPA is installed in each cage, TRIG_IN parameter is not necessary.
If 2 or more SPAs are installed in the same cage (this is special configuration), you need to set TRIG_IN parameter.
Only 1 SPB is installed in each cage, TRIG_IN parameter is not necessary.
If 2 or more SPBs are installed in the same cage (this is special configuration), you need to set TRIG_IN parameter.
ANALOGBOARD
226: TYPE=SPA, CORE=2
210: TYPE=SPA, CORE=2
218: TYPE=SPA, CORE=2
Core is always 2.
ANALOGBOARD
208: TYPE=SPA, CORE=2, TRIG_IN=210
209: TYPE=SPA, CORE=2, TRIG_IN=208
210: TYPE=SPA, CORE=2, TRIG_IN=209
ANALOGBOARD
226: TYPE=SPB, CORE=2
210: TYPE=SPB, CORE=2
218: TYPE=SPB, CORE=2
Core is always 2.
ANALOGBOARD
208: TYPE=SPB, CORE=2, TRIG_IN=210
209: TYPE=SPB, CORE=2, TRIG_IN=208
210: TYPE=SPB, CORE=2, TRIG_IN=209
Note:
Usually you don’t see the 2 or more samplers installation other than special configuration system. It means you don’t need to connect master slave connection cables and don’t need to set TRIG_IN parameters in model file.
TRIG_IN is for the master trigger function of the analog synchronization feature and it specifies the module location where the TRIG_IN connector connect to.
See “Master Trigger Function” in “System Reference” for detail.
21 - Analog Board

30. Multi-site Baseband (MCA) Product Variety
E9714A Multi-site Baseband Analog Source & Measure
4 x AWG(SRCA Module) x Digitizer(MESA Module) x PMU
E9715A Multi-site Baseband Analog Measure
8 x Digitizer(MESA Module) x PMU
2 x SRCA Modules
2 x MESA Modules
Functions of one SRCA Module:
Audio AWG (1Msps 24-bit)
Video AWG (100Msps 14-bit)
PMU
4 x MESA Modules
Functions of one MESA Module:
Audio Digitizer (200ksps 24-bit)
Video Digitizer (65Msps 14-bit)
PMU
DSP
Note:
21 - Analog Board

31. Multi-site Analog (MCA, MCB)
Key Specifications
Note:
21 - Analog Board

32. Multi-site Analog (MCA, MCB)
Key Specifications
Note:
21 - Analog Board

33. Multi-site Analog (MCA, MCB)
Key Specifications
Note:
21 - Analog Board

34. Multi-site Baseband (MCA / AV8) Hardware Component
# 1 (SRCA)
# 3 (SRCA)
# 5 (MESA)
# 7 (MESA)
# 2 (SRCA)
# 4 (SRCA)
# 6 (MESA)
# 8 (MESA) 2 1 2 3 3 1
Note:
21 - Analog Board

35. Multi-site Baseband (MCA / AV8) Hardware Component
Analog I/F Module with Heat Sink Front Module
Control Cable
(Exchangeable)
Front Module Analog I/F Module with Heat Sink
Power Cable
(Soldered to I/F Module)
Thermal Sheet (8 ea.) 1 2 3 4 5 6 7 8
Note:
21 - Analog Board

36. Analog Board Multi-site Baseband (MCA) Module Location
Odd
Analog I/F Module
Analog I/F Module
1. SRCA Module
Even
2. SRCA Module
Front Module
Front Module
3. SRCA Module
4. SRCA Module
5. MESA Module
6. MESA Module
7. MESA Module
8. MESA Module
E9714A
E9715A
Analog I/F Module
Analog I/F Module
Odd
1. MESA Module
Even
2. MESA Module
Front Module
Front Module
3. MESA Module
4. MESA Module
5. MESA Module
6. MESA Module
7. MESA Module
8. MESA Module
Important Point
1: You must describe module location numbers in model file.
- The numbers at either side are all odd or even.
- Lower numbers (1 – 4) are at the water hose side.
2: SRCA modules always locate closer to the water hose.
Note:
21 - Analog Board

37. Analog Board Multi-site BB/VHF (MCB) Unit Location
Main Board
AWG Unit 1
DTZ Unit 5
DTZ Unit 7
AWG Unit 3
DTZ Unit 8
DTZ Unit 6
AWG Unit 4
AWG Unit 2
Main Board
E9722A/B
E9723A/B
Main Board
DTZ Unit 1
DTZ Unit 5
DTZ Unit 7
DTZ Unit 3
DTZ Unit 8
DTZ Unit 6
DTZ Unit 4
DTZ Unit 2
Main Board
Important Point
1: You must describe unit location numbers in model file.
- The numbers at either side are all odd or even.
- Lower numbers (1 – 4) are at the water hose side.
2: SRCB (AWG) units are closer to the water hose.
Note:
21 - Analog Board

38. Analog Board Multi-site Giga Sampler (MCC) Unit Location
Sampler Unit 2
Sampler Unit 4
Sampler Unit 3
Sampler Unit 1
Sampler Module
21 - Analog Board

39. Analog Board MCA (AV8) – Model File
Example of E9714A Source & Measure
ANALOGBOARD section specifies existing
slot number of the MCA board.
BOARDCONF section specifies the
SRCA/MESA configuration in the MCA board.
ANALOGBOARD
231: TYPE=MCA
BOARDCONF
MCA: BOARD=231, MODULE=1, MTYPE=SRCA
MCA: BOARD=231, MODULE=2, MTYPE=SRCA
MCA: BOARD=231, MODULE=3, MTYPE=SRCA
MCA: BOARD=231, MODULE=4, MTYPE=SRCA
MCA: BOARD=231, MODULE=5, MTYPE=MESA
MCA: BOARD=231, MODULE=6, MTYPE=MESA
MCA: BOARD=231, MODULE=7, MTYPE=MESA
MCA: BOARD=231, MODULE=8, MTYPE=MESA
Board ID for E9714A and E9715A is MCA.
SRCA or MESA :
Type of hardware at each module location.
1 – 8 : Location of the SRCA and MESA module. (See previous slides. SRCA must be 1 – 4.)
Card slot number which is defined in the ANALOGBOARD section.
ANALOGBOARD
228: TYPE=MCA
BOARDCONF
MCA: BOARD=228, MODULE=1, MTYPE=MESA
MCA: BOARD=228, MODULE=2, MTYPE=MESA
MCA: BOARD=228, MODULE=3, MTYPE=MESA
MCA: BOARD=228, MODULE=4, MTYPE=MESA
MCA: BOARD=228, MODULE=5, MTYPE=MESA
MCA: BOARD=228, MODULE=6, MTYPE=MESA
MCA: BOARD=228, MODULE=7, MTYPE=MESA
MCA: BOARD=228, MODULE=8, MTYPE=MESA
Example of E9715A Measure
ANALOGBOARD section specifies existing
slot number of the MCA board.
BOARDCONF section specifies the SRCA/MESA configuration in the MCA board.
Note:
21 - Analog Board

40. Analog Board MCB / MCC – Model File - Legacy Syntax
Example of E9722 Source & Measure
ANALOGBOARD section specifies
existing slot number of the MCB board.
BOARDCONF section specifies the SRCB/MESB configuration in the MCB board.
ANALOGBOARD
231: TYPE=MCB
BOARDCONF
MCB: BOARD=231, MODULE=1, MTYPE=SRCB, Speed=500Msps
MCB: BOARD=231, MODULE=2, MTYPE=SRCB, Speed=500Msps
MCB: BOARD=231, MODULE=3, MTYPE=SRCB, Speed=500Msps
MCB: BOARD=231, MODULE=4, MTYPE=SRCB, Speed=500Msps
MCB: BOARD=231, MODULE=5, MTYPE=MESB
MCB: BOARD=231, MODULE=6, MTYPE=MESB
MCB: BOARD=231, MODULE=7, MTYPE=MESB
MCB: BOARD=231, MODULE=8, MTYPE=MESB
Board ID for E9722A/B and E9723A/B is MCB.
Speed is 100 or 500Msps.
SRCB or MESB :
Type of hardware at each location.
Card slot number which is defined in the ANALOGBOARD section.
1 – 8 : Location of
SRCB and MESB.
Example of E9726 Sampler
ANALOGBOARD section specifies existing slot number of the MCC board.
BOARDCONF section specifies the MESC configuration in the MCC board.
ANALOGBOARD
232: TYPE=MCC
BOARDCONF
MCC: BOARD=232, MODULE=1, MTYPE=MESC
MCC: BOARD=232, MODULE=2, MTYPE=MESC
MCC: BOARD=232, MODULE=3, MTYPE=MESC
MCC: BOARD=232, MODULE=4, MTYPE=MESC
Note:
21 - Analog Board

41. Analog Board MCB / MCC – Model File - New Syntax
Example of E9722 Source & Measure
ANALOGBOARD section specifies
existing slot number of the MCB board.
BOARDCONF section specifies the SRCB/MESB configuration in the MCB board.
ANALOGBOARD
231: TYPE=MCB
BOARDCONF
: TYPE=MCB, MTYPE=SRCB, Speed=500Msps
: TYPE=MCB, MTYPE=MESB
Board ID for E9722A/B and E9723A/B is MCB.
Simplified syntax:
One line for all SRCB or MESB units in the MCB board
Example of E9723 Measure
MCB board is in MCA compatible mode for usage with original MCA test programs.
ANALOGBOARD
231: TYPE=MCB, mode=MCA
BOARDCONF
: TYPE=MCB, MTYPE=MESB
MCA mode (optional)
Example of E9726 Sampler
ANALOGBOARD section specifies existing slot number of the MCC board.
BOARDCONF section specifies the MESC configuration in the MCC board.
ANALOGBOARD
232: TYPE=MCC
BOARDCONF
: TYPE=MCC, MTYPE=MESC
Simplified syntax:
One line for all MESC units in the MCC board
Note:
21 - Analog Board

42. Multi-site Baseband (MCA)
Disassembly
... Ensure You‘re ESD Protected!
Wear ESD shoes
Wear ESD coat
Wear ESD Wrist Strap a c
Remove 2 screws
Cover plate
Remove tape
Remove
2 screws
Note:
21 - Analog Board

43. Multi-site Baseband (MCA)
Disassembly
... Ensure You‘re ESD Protected!
Wear ESD shoes
Wear ESD coat
Wear ESD Wrist Strap
+ G –
Label (+, G, –)
This side is soldered
3 terminals (See next step)
Note:
21 - Analog Board

44. Multi-site Baseband (MCA)
Disassembly
... Ensure You‘re ESD Protected!
Wear ESD shoes
Wear ESD coat
Wear ESD Wrist Strap
Important!
When you remove 4 modules at a time, base board (analog interface module and front module) will bend or warp slightly. This bending of the base board will make installation more difficult, as the distance between the connectors at I/F module and front module changes.
Note:
21 - Analog Board

45. Analog Board Multi-site BB/VHF (MCB) - Support Parts
AWG Module E
MCB Main Board E
8 ea included in MCB Main Board
2 ea included in AWG Module
2 ea included in Digitizer Module
Thermal sheets E
Digitizer Module E
Note:
21 - Analog Board

46. Analog Board Multi-site BB/VHF (MCC) - Support Parts
Sampler Module E
MCC Main Board E
8 ea included in MCC Main Board
2 ea included in Sampler Module
Thermal sheets E
Note:
21 - Analog Board

47. Analog Board MCB/MCC – Module Replacement
... Insure You‘re ESD Protected!
Wear ESD shoes
Wear ESD coat
Wear ESD Wrist Strap
1. Remove screws, lift off the covers
3. Replace thermal sheets (included in spare part)
2. Lift off Module
Assemble board with new module in reverse order
Note:
21 - Analog Board

48. Analog Board MCB/MCC – Main Board Exchange
... Insure You‘re ESD Protected!
Wear ESD shoes
Wear ESD coat
Wear ESD Wrist Strap
1. Remove covers
Take care that no RF cables are squeezed (MCB only)
Cable bending area
2. Remove all Modules
Replace all 8 thermal sheets (included in spare part)
3. Change cover plates and gasket fingers to the new Main Board
Assemble board in reverse order
Note:
21 - Analog Board

49. Analog Board Maintenance Summary
Routine Maintenance Frequency: 3 months
Note:
Choose DC/Timing/Both by “Calibration Type” of Calibration GUI.
21 - Analog Board

50. Information needed Always needed:
complete software release name <Software Revision from UI Report Window>
/tmp/ReportWindow.dump
/var/opt/hp93000/soc/diagnostic/edc_codes
/etc/opt/hp93000/soc/model
If Diagnostic fails...
/var/opt/hp93000/soc/diagnostic/di_log_file_<most current time>
/var/opt/hp93000/soc/diagnostic/di_value_file_<most current time>
If Calibration fails...
/var/opt/hp93000/soc/calibration/cal_log
/var/opt/hp93000/soc/calibration/std_analog__
/var/opt/hp93000/soc/calibration/std_analog__.upper
/var/opt/hp93000/soc/calibration/std_analog__.lower
If the Application fails…
detailed failure description
simplified test program
21 - Analog Board