二手 TERADYNE / EAGLE ETS 364 #9027189 待售
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ID: 9027189
Tester
ESMO manipulator
Primary Digital Card Cage
1 THIB-PRI
2 QTMU 0-3
3 DPU-16--1 16-31
4 DPU-16--0 0-15
5 CBIT-64
6 MCU 66MHz
7 ISO-COM 64
8 Empty
9 Empty
10 Empty
11 DPU-16--4 64-79
12 DPU-16--3 48-63
13 DPU-16--2 32-47
14 Empty
Primary FR Chassis
0 SPU-100 takes 2 slots
1
2 APU-12 0-11
3 0-7
4 APU-12 12-23
5 8-15
6 APU-12 24-35
7 16-23
8 SPU-100
9
10 APU-12 36-47
11
12 APU-12 48-59
13
14 APU-12 60-71
15
16
17
18 QMS 0-1
19 QMS 2-3
20
21
22
23
24 SPU-100
25
26 APU-12 72-83
27
28 APU-12 84-95
29
30 APU-12 96-107
31
32 SPU-100
33
34 APU-12 108-119
35
36 APU-12 120-131
37
38 APU-12 132-143
39
Test head address \0xD000
//////////////////////////////////////////////////////////////////////////////
// Valid Test Head Types: //
// 500D, 564, 300, 200, BT2000, 600, 364 //
//////////////////////////////////////////////////////////////////////////////
Test head type: \364
Tester Maximum Voltage \maxv \1000
//////////////////////////////////////////////////////////////////////////////
//NOTE: //
// All examples use the forward slash '/' instead of the other slash. //
// This is so that backward compatibility is maintained. //
// //
// If you copy the example, please change the forward slash '/' to the //
// other slash. //
// //
//////////////////////////////////////////////////////////////////////////////
// //
// Iso-comm Position Mapping Syntax: //
// //
// Place the logical position number of the floating resource in the //
// 'pos' field of the line corresponding to the actual Iso-comm channel. //
// If a line is missing or the 'pos' field is left blank, the position //
// defaults to direct mapping. //
// //
// Example: //
// //
// Iso-comm Channel #0 /icom0 /pos<num> //
// //
// where: <num> is the logical icom position, 0 to 255 //
// //
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
// //
// Primary Isocomm Card Cage... //
// //
//////////////////////////////////////////////////////////////////////////////
Iso-comm Channel #0 \icom0 \pos82
Iso-comm Channel #1 \icom1 \pos87
Iso-comm Channel #2 \icom2 \pos0
Iso-comm Channel #3 \icom3 \pos1
Iso-comm Channel #4 \icom4 \pos4
Iso-comm Channel #5 \icom5 \pos5
Iso-comm Channel #6 \icom6 \pos8
Iso-comm Channel #7 \icom7 \pos9
Iso-comm Channel #8 \icom8 \pos2
Iso-comm Channel #9 \icom9 \pos3
Iso-comm Channel #10 \icom10 \pos6
Iso-comm Channel #11 \icom11 \pos7
Iso-comm Channel #12 \icom12 \pos10
Iso-comm Channel #13 \icom13 \pos11
Iso-comm Channel #14 \icom14 \pos14
Iso-comm Channel #15 \icom15 \pos15
Iso-comm Channel #16 \icom16 \pos12
Iso-comm Channel #17 \icom17 \pos13
Iso-comm Channel #18 \icom18 \pos16
Iso-comm Channel #19 \icom19 \pos17
Iso-comm Channel #20 \icom20 \pos20
Iso-comm Channel #21 \icom21 \pos21
Iso-comm Channel #22 \icom22 \pos24
Iso-comm Channel #23 \icom23 \pos25
Iso-comm Channel #24 \icom24 \pos88
Iso-comm Channel #25 \icom25 \pos89
Iso-comm Channel #26 \icom26 \pos90
Iso-comm Channel #27 \icom27 \pos91
Iso-comm Channel #28 \icom28 \pos18
Iso-comm Channel #29 \icom29 \pos19
Iso-comm Channel #30 \icom30 \pos22
Iso-comm Channel #31 \icom31 \pos23
// Next 16 positions are used by 64-channel ISO-COMM boards.
Iso-comm Channel #32 \icom32 \pos96
Iso-comm Channel #33 \icom33 \pos97
Iso-comm Channel #34 \icom34 \pos98
Iso-comm Channel #35 \icom35 \pos99
Iso-comm Channel #36 \icom36 \pos100
Iso-comm Channel #37 \icom37 \pos101
Iso-comm Channel #38 \icom38 \pos102
Iso-comm Channel #39 \icom39 \pos103
Iso-comm Channel #40 \icom40 \pos104
Iso-comm Channel #41 \icom41 \pos105
Iso-comm Channel #42 \icom42 \pos106
Iso-comm Channel #43 \icom43 \pos107
Iso-comm Channel #44 \icom44 \pos108
Iso-comm Channel #45 \icom45 \pos109
Iso-comm Channel #46 \icom46 \pos110
Iso-comm Channel #47 \icom47 \pos111
Iso-comm Channel #48 \icom48 \pos28
Iso-comm Channel #49 \icom49 \pos29
Iso-comm Channel #50 \icom50 \pos32
Iso-comm Channel #51 \icom51 \pos33
Iso-comm Channel #52 \icom52 \pos36
Iso-comm Channel #53 \icom53 \pos37
Iso-comm Channel #54 \icom54 \pos80
Iso-comm Channel #55 \icom55 \pos81
Iso-comm Channel #56 \icom56 \pos26
Iso-comm Channel #57 \icom57 \pos27
Iso-comm Channel #58 \icom58 \pos30
Iso-comm Channel #59 \icom59 \pos31
Iso-comm Channel #60 \icom60 \pos34
Iso-comm Channel #61 \icom61 \pos35
Iso-comm Channel #62 \icom62 \pos38
Iso-comm Channel #63 \icom63 \pos39
//////////////////////////////////////////////////////////////////////////////
// //
// APU Pin mapping syntax: //
// //
// Place the logical (mapped) iso-comm position number of the APU in the //
// 'pos' field of the line corresponding to the pin numbers which that //
// APU board represents. If a line is missing or the 'pos' field is left //
// blank, auto-pin assignments will occur for each APU present. //
// //
// Example: //
// //
// APU Pin Numbers 0-7 /apu0 /pos<num> //
// //
// where: <num> is the logical icom position, 0 to 255 //
// //
//////////////////////////////////////////////////////////////////////////////
APU Pin Numbers 0-7 \apu0 \
APU Pin Numbers 8-15 \apu8 \
APU Pin Numbers 16-23 \apu16 \
APU Pin Numbers 24-31 \apu24 \
APU Pin Numbers 32-39 \apu32 \
APU Pin Numbers 40-47 \apu40 \
APU Pin Numbers 48-55 \apu48 \
APU Pin Numbers 56-63 \apu56 \
APU Pin Numbers 64-71 \apu64 \
APU Pin Numbers 72-79 \apu72 \
APU Pin Numbers 80-87 \apu80 \
APU Pin Numbers 88-95 \apu88 \
APU Pin Numbers 96-103 \apu96 \
APU Pin Numbers 104-111 \apu104 \
APU Pin Numbers 112-119 \apu112 \
APU Pin Numbers 120-127 \apu120 \
APU Pin Numbers 128-135 \apu128 \
APU Pin Numbers 136-143 \apu136 \
APU Pin Numbers 144-151 \apu144 \
APU Pin Numbers 152-159 \apu152 \
APU Pin Numbers 160-167 \apu160 \
APU Pin Numbers 168-175 \apu168 \
APU Pin Numbers 176-183 \apu176 \
APU Pin Numbers 184-191 \apu184 \
APU Pin Numbers 192-199 \apu192 \
APU Pin Numbers 200-207 \apu200 \
APU Pin Numbers 208-215 \apu208 \
APU Pin Numbers 216-223 \apu216 \
APU Pin Numbers 224-231 \apu224 \
APU Pin Numbers 232-239 \apu232 \
APU Pin Numbers 240-247 \apu240 \
APU Pin Numbers 248-255 \apu248 \
//////////////////////////////////////////////////////////////////////////////
// //
// APU-12 Pin mapping syntax: //
// //
// Place the logical(mapped) odd iso-comm position number of the APU-12 in//
// the 'pos' field of the line corresponding to the pin numbers which that//
// APU-12 board represents. If a line is missing or the 'pos' field is //
// left blank, auto-pin assignments will occur for each APU-12 present. //
// //
// Example: //
// //
// APU-12 Pin Numbers 0-11 /apu12-pin0 /pos<num> //
// where: <num> is the logical icom position, 0 to 255 //
// //
//////////////////////////////////////////////////////////////////////////////
APU-12 Pin Numbers 0-11 \apu12-pin0 \pos3
APU-12 Pin Numbers 12-23 \apu12-pin12 \pos5
APU-12 Pin Numbers 24-35 \apu12-pin24 \pos7
APU-12 Pin Numbers 36-47 \apu12-pin36 \pos11
APU-12 Pin Numbers 48-59 \apu12-pin48 \pos13
APU-12 Pin Numbers 60-71 \apu12-pin60 \pos15
APU-12 Pin Numbers 72-83 \apu12-pin72 \pos27
APU-12 Pin Numbers 84-95 \apu12-pin84 \pos29
APU-12 Pin Numbers 96-107 \apu12-pin96 \pos31
APU-12 Pin Numbers 108-119 \apu12-pin108 \pos35
APU-12 Pin Numbers 120-131 \apu12-pin120 \pos37
APU-12 Pin Numbers 132-143 \apu12-pin132 \pos39
APU-12 Pin Numbers 144-155 \apu12-pin144 \
APU-12 Pin Numbers 156-167 \apu12-pin156 \
APU-12 Pin Numbers 168-179 \apu12-pin168 \
APU-12 Pin Numbers 180-191 \apu12-pin180 \
APU-12 Pin Numbers 192-203 \apu12-pin192 \
APU-12 Pin Numbers 204-215 \apu12-pin204 \
APU-12 Pin Numbers 216-227 \apu12-pin216 \
APU-12 Pin Numbers 228-239 \apu12-pin228 \
APU-12 Pin Numbers 240-251 \apu12-pin240 \
: : : : :
APU-12 Pin Numbers 468-479 \apu12-pin468 \
//////////////////////////////////////////////////////////////////////////////
// //
// QMS Pin mapping syntax: //
// //
// Place the logical (mapped) iso-comm position number of the QMS in the //
// 'pos' field of the line corresponding to the pin numbers which that QMS //
// icom num represents. If a line is missing or the 'pos' field is left //
// blank, auto-pin assignments will occur for each QMS pin present. //
// //
// Example: //
// //
// QMS Pin Numbers 8-9 /qms8 /pos<num> //
// //
// where: <num> is the logical icom position, 0 to 255 //
// //
//////////////////////////////////////////////////////////////////////////////
QMS Pin Numbers 0-1 \qms0 \pos18
QMS Pin Numbers 2-3 \qms2 \pos19
QMS Pin Numbers 4-5 \qms4 \
QMS Pin Numbers 6-7 \qms6 \
QMS Pin Numbers 8-9 \qms8 \
QMS Pin Numbers 10-11 \qms10 \
QMS Pin Numbers 12-13 \qms12 \
QMS Pin Numbers 14-15 \qms14 \
QMS Pin Numbers 16-17 \qms16 \
QMS Pin Numbers 18-19 \qms18 \
QMS Pin Numbers 20-21 \qms20 \
QMS Pin Numbers 22-23 \qms22 \
QMS Pin Numbers 24-25 \qms24 \
QMS Pin Numbers 26-27 \qms26 \
QMS Pin Numbers 28-29 \qms28 \
QMS Pin Numbers 30-31 \qms30 \
: : : : :
QMS Pin Numbers 124-125 \qms124 \
QMS Pin Numbers 126-127 \qms126 \
//////////////////////////////////////////////////////////////////////////////
// //
// QHSU Pin mapping syntax: //
// //
// Place the logical (mapped) iso-comm position number of the QHSU in the //
// 'pos' field of the line corresponding to the pin numbers which that QHSU//
// icom num represents. If a line is missing or the 'pos' field is left //
// blank, auto-pin assignments will occur for each QHSU pin present. //
// //
// Example: //
// //
// QHSU Pin Numbers 8-9 /qhsu8 /pos<num> //
// //
// where: <num> is the logical icom position, 0 to 255 //
// //
//////////////////////////////////////////////////////////////////////////////
QHSU Pin Numbers 0-1 \qhsu0 \
QHSU Pin Numbers 2-3 \qhsu2 \
QHSU Pin Numbers 4-5 \qhsu4 \
QHSU Pin Numbers 6-7 \qhsu6 \
QHSU Pin Numbers 8-9 \qhsu8 \
QHSU Pin Numbers 10-11 \qhsu10 \
QHSU Pin Numbers 12-13 \qhsu12 \
QHSU Pin Numbers 14-15 \qhsu14 \
QHSU Pin Numbers 16-17 \qhsu16 \
QHSU Pin Numbers 18-19 \qhsu18 \
QHSU Pin Numbers 20-21 \qhsu20 \
QHSU Pin Numbers 22-23 \qhsu22 \
QHSU Pin Numbers 24-25 \qhsu24 \
QHSU Pin Numbers 26-27 \qhsu26 \
QHSU Pin Numbers 28-29 \qhsu28 \
QHSU Pin Numbers 30-31 \qhsu30 \
: : : : : :
: : : : : :
QHSU Pin Numbers 252-253 \qhsu252 \
QHSU Pin Numbers 254-255 \qhsu254 \
//////////////////////////////////////////////////////////////////////////////
// //
// 8x8 Matrix Resource/Channel mapping syntax: //
// //
// Place the logical (mapped) iso-comm position number of the 8x8 Matrix //
// in the 'pos' field of the line corresponding to the Resource/Channel //
// numbers which that 8x8 Matrix board represents. If a line is missing //
// or the 'pos' field is left blank, resource/channel number assignments //
// will occur automatically for each 8x8 Matrix present. //
// //
// Example: //
// //
// Matrix Res/Chan Numbers 0-7 /mat0 /pos<num> //
// //
// where: <num> is the logical icom position, 0 to 255 //
// //
//////////////////////////////////////////////////////////////////////////////
Matrix Res/Chan Numbers 0-7 \mat0 \
Matrix Res/Chan Numbers 8-15 \mat8 \
Matrix Res/Chan Numbers 16-23 \mat16 \
Matrix Res/Chan Numbers 24-31 \mat24 \
Matrix Res/Chan Numbers 32-39 \mat32 \
Matrix Res/Chan Numbers 40-47 \mat40 \
Matrix Res/Chan Numbers 48-55 \mat48 \
Matrix Res/Chan Numbers 56-63 \mat56 \
Matrix Res/Chan Numbers 64-71 \mat64 \
Matrix Res/Chan Numbers 72-79 \mat72 \
Matrix Res/Chan Numbers 80-87 \mat80 \
Matrix Res/Chan Numbers 88-95 \mat88 \
Matrix Res/Chan Numbers 96-103 \mat96 \
Matrix Res/Chan Numbers 104-111 \mat104 \
Matrix Res/Chan Numbers 112-119 \mat112 \
Matrix Res/Chan Numbers 120-127 \mat120 \
Matrix Res/Chan Numbers 128-135 \mat128 \
Matrix Res/Chan Numbers 136-143 \mat136 \
Matrix Res/Chan Numbers 144-151 \mat144 \
Matrix Res/Chan Numbers 152-159 \mat152 \
Matrix Res/Chan Numbers 160-167 \mat160 \
Matrix Res/Chan Numbers 168-175 \mat168 \
Matrix Res/Chan Numbers 176-183 \mat176 \
Matrix Res/Chan Numbers 184-191 \mat184 \
Matrix Res/Chan Numbers 192-199 \mat192 \
Matrix Res/Chan Numbers 200-207 \mat200 \
Matrix Res/Chan Numbers 208-215 \mat208 \
Matrix Res/Chan Numbers 216-223 \mat216 \
Matrix Res/Chan Numbers 224-231 \mat224 \
Matrix Res/Chan Numbers 232-239 \mat232 \
Matrix Res/Chan Numbers 240-247 \mat240 \
Matrix Res/Chan Numbers 248-255 \mat248 \
//////////////////////////////////////////////////////////////////////////////
// //
// QPLU Pin mapping syntax: //
// //
// Place the logical (mapped) iso-comm position number of the QPLU in the //
// 'pos' field of the line corresponding to the pin numbers which that //
// QPLU icom num represents. Note that iso-comm positions are shared by //
// two consecutive QPLU pins. Therefore only the even pin of the pair //
// should be specified in the pin field. If a line is missing or the //
// 'pos' field is left blank, auto-pin assignments will occur for each //
// QPLU pin present. //
// //
// Example: //
// //
// QPLU Pin Numbers 0-1 /qplu0 /pos<num> //
// QPLU Pin Numbers 2-3 /qplu2 /pos<num> //
// //
// where: <num> is the logical icom position, 0 to 255 //
// //
// //
// QPLU Pin-to-CIB mapping syntax: //
// //
// Place the logical (mapped) CIB cable position number connected to the //
// QPLU pin in the 'cib' field of the line corresponding to the QPLU pin. //
// Unmapped pins will have no CIB connection assigned. //
// //
// Note that logical CIB connection mapping is valid offline only. In //
// online mode the actual CIB connection is detected automatically. //
// //
// Example: //
// //
// QPLU Pin Number 0 \qplu-pin0 \cib<cibnum> //
// QPLU Pin Number 1 \qplu-pin1 \cib<cibnum> //
// QPLU Pin Number 2 \qplu-pin2 \cib<cibnum> //
// QPLU Pin Number 3 \qplu-pin3 \cib<cibnum> //
// //
// where: <cibnum> is the cable position on the CIB, 0 to 7 //
// //
//////////////////////////////////////////////////////////////////////////////
QPLU Pin Numbers 0-1 \qplu0 \
QPLU Pin Numbers 2-3 \qplu2 \
QPLU Pin Numbers 4-5 \qplu4 \
QPLU Pin Numbers 6-7 \qplu6 \
QPLU Pin Numbers 8-9 \qplu8 \
QPLU Pin Numbers 10-11 \qplu10 \
QPLU Pin Numbers 12-13 \qplu12 \
QPLU Pin Numbers 14-15 \qplu14 \
QPLU Pin Numbers 16-17 \qplu16 \
QPLU Pin Numbers 18-19 \qplu18 \
QPLU Pin Numbers 20-21 \qplu20 \
QPLU Pin Numbers 22-23 \qplu22 \
QPLU Pin Numbers 24-25 \qplu24 \
QPLU Pin Numbers 26-27 \qplu26 \
QPLU Pin Numbers 28-29 \qplu28 \
QPLU Pin Numbers 30-31 \qplu30 \
: : : : : :
QPLU Pin Numbers 78-79 \qplu78 \
QPLU Pin Number 0 \qplu-pin0 \
QPLU Pin Number 1 \qplu-pin1 \
QPLU Pin Number 2 \qplu-pin2 \
QPLU Pin Number 3 \qplu-pin3 \
QPLU Pin Number 4 \qplu-pin4 \
QPLU Pin Number 5 \qplu-pin5 \
QPLU Pin Number 6 \qplu-pin6 \
QPLU Pin Number 7 \qplu-pin7 \
QPLU Pin Number 8 \qplu-pin8 \
QPLU Pin Number 9 \qplu-pin9 \
QPLU Pin Number 10 \qplu-pin10 \
QPLU Pin Number 11 \qplu-pin11 \
QPLU Pin Number 12 \qplu-pin12 \
QPLU Pin Number 13 \qplu-pin13 \
QPLU Pin Number 14 \qplu-pin14 \
QPLU Pin Number 15 \qplu-pin15 \
QPLU Pin Number 16 \qplu-pin16 \
: : : : : :
QPLU Pin Number 78 \qplu-pin78 \
QPLU Pin Number 79 \qplu-pin79 \
//////////////////////////////////////////////////////////////////////////////
// //
// Internal Cbit Wiring syntax: //
// //
// Use this section to specify Internal Cbits that are hard wired to a //
// resource and cannot be toggled during diagnostics. Any Internal Cbits //
// specified in this section will be skipped during Cbit diagnostics. //
// The second field can be any user-defined string. //
// If a line is missing or the second field is left blank, the Internal //
// Cbit will be tested normally during diagnostics. //
// //
// Example: //
// //
// Internal Cbit Wiring #0 \icbit0 \RF Cal Board //
// //
//////////////////////////////////////////////////////////////////////////////
Internal Cbit Wiring #0 \icbit0 \
Internal Cbit Wiring #1 \icbit1 \
Internal Cbit Wiring #2 \icbit2 \
: : : : :
Internal Cbit Wiring #31 \icbit31 \
//////////////////////////////////////////////////////////////////////////////
// //
// RF3000 -DOWNCONVERTER to QMS Connection: //
// //
// Place here the QMS pin that connects to the downconverter output //
// //
// Valid qms<pin>'s are: 0 - 127 //
// Example: //
// //
// RF3000 DOWNCONV /rf3dwncnv /qms4 //
// //
//////////////////////////////////////////////////////////////////////////////
RF3000 DOWNCONV \rf3dwncnv \
//////////////////////////////////////////////////////////////////////////////
// //
// DUAL RF3000 -DOWNCONVERTER to QMS Connections: //
// //
// Place here the QMS pin that connects to the downconverter output //
// //
// Valid qms<pin>'s are: 0 - 127 //
// Example: //
// //
// RF3000 DOWNCONV /drf3dwncnv-0 /qms4 //
// RF3000 DOWNCONV /drf3dwncnv-1 /qms5 //
// //
//////////////////////////////////////////////////////////////////////////////
RF3000 DOWNCONV \drf3dwncnv-0 \
RF3000 DOWNCONV \drf3dwncnv-1 \
//////////////////////////////////////////////////////////////////////////////
// //
// RF-6000 CONFIGURATION SYNTAX: //
// I- Iso-comm position assignment //
// II- RF6000 QDC to QHSU connection (Direct or Multiplexed) //
// III- SMIQ to QHSU (I/Q) connections //
// //
// //
// Assign two consecutive Iso-comm positions from the //
// "MAINFRAME CARD CAGE" group to the RF6000 resources. //
// //
// Iso-comm assignment Example: //
// //
// Iso-comm base Resource \ires88 \RF6-SRC //
// Iso-comm base Resource \ires89 \RF6-MEAS //
// //
// //
// DIRECT QDC-QHSU CONNECTION EXAMPLE: //
// //
// rf6 qdc to qhsu connection \rf6qdc-0_0 \qhsu-rf0 //
// rf6 qdc to qhsu connection \rf6qdc-0_1 \qhsu-rf1 //
// rf6 qdc to qhsu connection \rf6qdc-0_2 \qhsu-rf2 //
// rf6 qdc to qhsu connection \rf6qdc-0_3 \qhsu-rf3 //
// //
// rf6 qdc to qhsu connection \rf6qdc-1_0 \qhsu-rf4 //
// rf6 qdc to qhsu connection \rf6qdc-1_1 \qhsu-rf5 //
// rf6 qdc to qhsu connection \rf6qdc-1_2 \qhsu-rf6 //
// rf6 qdc to qhsu connection \rf6qdc-1_3 \qhsu-rf7 //
// //
// MUXED QDC-QHSU CONNECTION EXAMPLE: //
// //
// rf6 qdc to qhsu connection \rf6qdc-mux0-0 \qhsu-rf0 //
// rf6 qdc to qhsu connection \rf6qdc-mux0-1 \qhsu-rf1 //
// rf6 qdc to qhsu connection \rf6qdc-mux0-2 \qhsu-rf2 //
// rf6 qdc to qhsu connection \rf6qdc-mux0-3 \qhsu-rf3 //
// //
// rf6 qdc to qhsu connection \rf6qdc-mux1-0 \qhsu-rf0 //
// rf6 qdc to qhsu connection \rf6qdc-mux1-1 \qhsu-rf1 //
// rf6 qdc to qhsu connection \rf6qdc-mux1-2 \qhsu-rf2 //
// rf6 qdc to qhsu connection \rf6qdc-mux1-3 \qhsu-rf3 //
// //
// //
// SMIQ QHSU (I/Q) CONNECTION EXAMPLE: //
// rf6 iq to qhsu connection \rf6src-0_I \qhsu0 //
// rf6 iq to qhsu connection \rf6src-0_Q \qhsu1 //
// rf6 iq to qhsu connection \rf6src-1_I \qhsu2 //
// rf6 iq to qhsu connection \rf6src-1_Q \qhsu3 //
// //
//////////////////////////////////////////////////////////////////////////////
//////////////////////////////////////////////////////////////////////////////
// //
// GPIB mapping syntax: //
// //
// Place here the GPIB addresses versus system resource mapping //
// //
// Valid GPIB addresses : gpib-0 to gpib-30 //
// Valid resource keywords are: //
// RS0, RS1, RS2, LO //
// //
// Example: //
// //
// GPIB Address \gpib-27 \RS0 //
// GPIB Address \gpib- \RS1 ** not assigned for SMATE** //
// GPIB Address \gpib-28 \LO //
// //
// Please consult ets\inc\gpib500d.h to avoid gpib address conflicts //
//
TERADYNE/EAGLE ETS 364是一種多功能、高性能、自動化的最終測試設備,用於測試和表征印刷電路組件(PCA)。該系統設計靈活,易於編程,可生產高可靠性多氯聯苯。EAGLE ETS364能夠驗證各種設備,包括邏輯、模擬、內存、MCU和RF收發器。它包括幾個有助於確保最高質量測試結果的功能,例如:支持缺陷分析的照明單元、軟件報告生成、用於檢測錯誤測試數據的報警機以及用於執行電路測試的全板測試工具(WBTS)。TERADYNE ETS-364還帶有可編程的故障延遲觸發器和可調節的測試溫度範圍,以更好地控制測試參數。此外,TERADYNE/EAGLE ETS-364還配備了車載診斷、掃描鏈測試控制器和掃描入站數字模式。EAGLE ETS-364具有測試資產硬件、測試策略、電源控制功能和信號發生器的緊密集成。這使操作員能夠輕松快速地測量PDF、JEDEC、Flash、路徑長度、數字模式和阻抗測試。測試模型利用可編程電源和外部三相電源提供穩定的電壓水平,確保準確性和可重復性。此外,ETS-364還提供了一整套選項,用於編寫或編輯測試軟件和測試程序,以及測試結果存儲和測試適應客戶特定需求。TERADYNE ETS364是一種多功能機器,不僅執行必要的測試,而且打印和解釋測試結果。這樣可以確保測試結果準確、可重復和可重現。此外,強大的數據采集和分析設備可以方便地訪問用於高級統計分析的關鍵測試數據點。TERADYNE ETS 364是一個易於使用和可靠的自動化最終測試系統,旨在幫助提高吞吐量,降低制造成本,並確保多氯聯苯的最高質量。ETS 364具備一整套全面的功能,並且能夠根據任何要求進行定制,因此,ETS 364使企業確信其生產可靠且有效。
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