Occasion TERADYNE Catalyst RF #150224 à vendre en France
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ID: 150224
Mixed Signal Testers
Configuration 1
Catalyst tester cat
cat is a 2 processor system
Processor 1: 450 MHz sparc (online)
Processor 3: 450 MHz sparc (online)
PCI based system
Terabus is present
Board ID 949-824-00
TCI is present
CATALYST_TH 1
BACKPLANE A
#Slot Type Num XptA XptB Name
2 000-000-00 0 # 23 24 EMPTY
3 000-000-00 0 # 21 22 EMPTY
4 000-000-00 0 # 19 20 EMPTY
5 879-792-01 0 # 17 18 TIME CC
6 939-227-50 0 # 15 16 GIGADIG CC
7 949-916-50 0 # 13 14 AWGLAN CC
8 000-000-00 0 # 11 12 EMPTY
9 879-906-51 0 # 9 10 VHFCW CC
10 949-681-50 0 # 7 8 VHFAWG400 DIFF CC
11 949-831-50 0 # 5 6 1G VHFD CC
14 949-681-50 0 # 25 26 VHFAWG400 DIFF CC
15 949-831-50 0 # 27 28 1G VHFD CC
16 803-595-01 0 # 29 30 UWMM
17 000-000-00 0 # 31 32 EMPTY
18 803-596-07 0 # 33 34 UWPORT
19 803-594-00 0 # 35 36 UHFSRC CC
20 803-594-00 0 # 37 38 UHFSRC CC
21 000-000-00 0 # 39 40 EMPTY
22 000-000-00 0 # 41 42 EMPTY
23 000-000-00 0 # 43 44 EMPTY
1 949-669-00 0 # 3 0 HAS (Left HAS LA669-00)
13 949-668-00 0 # 0 0 CATALYST HAC
12 949-667-00 0 # 0 0 DIF
24 949-669-01 0 # 4 0 HAS (Right HAS LA669-01)
END
RF_PIPES 1
# pipe-name slot schan description
Z4A 18 1 # UWPORT (OSP)
Z3A 18 2 # UWPORT (OSP)
Z2A 18 3 # UWPORT (OSP)
Z1A 18 4 # UWPORT (OSP)
Z12C 6 3 # GIGADIG CC (OSP)
Z10C 6 5 # GIGADIG CC (OSP)
Z3C 18 1 # UWPORT (OSP)
Z2C 18 2 # UWPORT (OSP)
Z5C 18 5 # UWPORT (OSP)
Z4C 18 6 # UWPORT (OSP)
Z12D 6 1 # GIGADIG CC (OSP)
Z10D 6 4 # GIGADIG CC (OSP)
Z3D 18 3 # UWPORT (OSP)
Z2D 18 4 # UWPORT (OSP)
Z5D 18 7 # UWPORT (OSP)
Z4D 18 8 # UWPORT (OSP)
END
RF_CONNECTIONS 1
# RF pipe connections between channel cards
# slot schan slot schan
16 1 to 18 7
19 1 to 18 5
20 1 to 18 6
END
#
# Up to 4 Precision AC Card Cages are allowed
#
PRECISION_AC 1
#Slot Type Num Name
1 949-664-00 0 # VHFDIG MF
2 949-664-00 0 # VHFDIG MF
3 949-915-01 0 # AWGLAN (8Meg)
4 949-827-00 0 # VHFAWG
5 949-827-00 0 # VHFAWG
6 949-320-00 0 # UWMS
7 000-000-00 0 # EMPTY
8 949-671-01 0 # PACS CAGE INT
END
PRECISION_AC 2
#Slot Type Num Name
1 949-664-20 0 # GIGADIG MF
2 000-000-00 0 # EMPTY
3 000-000-00 0 # EMPTY
4 000-000-00 0 # EMPTY
5 949-320-00 0 # UWMS
6 000-000-00 0 # EMPTY
7 000-000-00 0 # EMPTY
8 949-671-01 0 # PACS CAGE INT
END
#
# Up to 8 Universal Backplane/Synch Power Subsystem
# cages are allowed
#
# For the Synch Power Subsystem:
# Slot Type Name Instr1 # Instr2 # Ammeter #
#
# Instr1 # - insrument connected to the first two matrix lines
# Instr2 # - insrument connected to the last two matrix lines
# Ammeter # - ammeter connection
# to AVOID errors, put NO 0 if no instrument is connected.
#
#
UB_SPS_CAGE 1
# Slot Type Num Name
1 879-802-02 0 # UB_SPS_802
2 517-301-01 0 # UB_MATRIX
3 517-301-01 0 # UB_MATRIX
4 517-301-01 0 # UB_MATRIX
5 517-301-01 0 # UB_MATRIX
6 517-301-01 0 # UB_MATRIX
7 517-301-01 0 # UB_MATRIX
8 517-301-01 0 # UB_MATRIX
9 517-301-01 0 # UB_MATRIX
10 517-301-01 0 # UB_MATRIX
11 517-301-01 0 # UB_MATRIX
12 517-301-01 0 # UB_MATRIX
13 517-301-01 0 # UB_MATRIX
14 879-925-01 0 # UB_60_V_SRC MAT 1
15 879-925-01 0 # UB_60_V_SRC DUT 1
16 879-925-01 0 # UB_60_V_SRC MAT 2
17 879-925-01 0 # UB_60_V_SRC MAT 3
21 879-690-00 0 # UB_ASY
22 517-300-01 0 # UB_TJ300
END
HSD100_CHAN_CAGE 1
#Slot Type Num Fld1 Fld2 Name
1 949-921-01 0 # HSD CDM 400
2 949-921-01 0 # HSD CDM 400
3 949-921-01 0 # HSD CDM 400
4 949-921-01 0 # HSD CDM 400
5 949-920-10 0 # HSD CSB
END
HSD100_CHAN_CAGE 2
#Slot Type Serial # Num Fld1 Fld2 Name
5 949-920-00 0x11d4d44 0 # HSD CSB
END
CATALYST_TH 1
BACKPLANE B
#Slot Type Num Name
29 949-626-10 0 # HSD THS
47 949-626-10 0 # HSD THS
61 949-625-00 0 # HSD DTH
62 949-625-00 0 # HSD DTH
63 949-625-00 0 # HSD DTH
64 949-625-00 0 # HSD DTH
65 949-626-00 0 # HSD THS
66 949-625-00 0 # HSD DTH
67 949-625-00 0 # HSD DTH
68 949-625-00 0 # HSD DTH
69 949-625-00 0 # HSD DTH
74 949-626-10 0 # HSD THS
END
#
# Trigger Switch Yard
#
# Note: The logical slot numbers below correspond to the physical slot
# numbers only for test systems which contain a TSY card
# cage. In test systems which contain an SCS/TSY card cage the
# mapping is:
#
# Logical TSY slot (below) Physical slot
# 1 -> 2
# 3 -> 1
#
TSY CAGE
#Slot Type Num Name
1 879-655-02 0 # TSY
2 000-000-00 0 # EMPTY
3 000-000-00 0 # EMPTY
4 000-000-00 0 # EMPTY
END
#
# Time Subsystem
#
TIME_SUBSYSTEM
# Board ID Name
879-793-00 # TMS Timer
879-794-01 # TMS Counter
879-795-01 # TMS Support
END
# The UWMS option resides in the PACS cage and is composed of two
# plug-in modules that may reside in one of three locations A, B or C.
# A zero in the type field indicates no plug-in module.
# PACS_UW <n> - indicates PACS cage number of these UWMS options
# Slot - indicates slot number and module position for this UWMS option
# Type - board identification number
# AWG Num - AWG instrument number connected to this UWMS option
# UHFSRC Num - UHF instrument number that has this UWMS option
# MODSRC Num - First or second MODSRC connected to above UHFSRC
#
PACS_UW 1
# AWG UHFSRC MODSRC
#Slot Type Rev Date Num Num Num Name
6 949-320-00 A 0226-0 2 1 1 # UWMS
6A 949-330-00 A 9944-0 # UWMS UP CONV
6B 000-000-00 0 0000-0
6C 949-333-00 C 0308-0 # UWMS MUX
END
#
PACS_UW 2
# AWG UHFSRC MODSRC
#Slot Type Rev Date Num Num Num Name
5 949-320-00 A 0226-0 2 1 2 # UWMS
5A 949-330-20 A 0312-0 # MODSRC6000 UP CONV
5B 000-000-00 0 0000-0
5C 939-204-00 A 0331-0 # MODSRC6000 MUX
END
#
#
# The UWPORT option modules are composed of plug-in modules.
# The names list in the first column indicate the presence of
# the option modules for the uwport.
#
UWPORT_OPTIONS_HEAD 1
#
# Name Slot Type Serial # Rev Num Date
PORT 18 803-596-07 0x02220dd B 1 # 0140-0
NOISE 18 733-104-00 0x028067c A 1 # 9923-0
END
#
# DC Subsystem -
#
# SRC <NUM> [1 - 13]
# (sources 1-5 are MATRIX sources 1-5
# sources 6-13 are DUT sources 1-8)
# HCU <NUM> *[1 - 4]
# REF HCU <NUM> *[1 - 4]
# HVSRC <NUM> *[1 - 4]
# PWRSRC <NUM> [1 - 4]
# DATABITS <NUM> - <NUM> [1 - 192]
#
# ** These instruments share the same seven-slot cage -- only one
# instrument is allowed per slot.
#
DC_SUBSYSTEM
# UBVI 60 1 ( 60V V/I Source in Universal Backplane 1 : slot 14)
# UBVI 60 2 ( 60V V/I Source in Universal Backplane 1 : slot 16)
# UBVI 60 3 ( 60V V/I Source in Universal Backplane 1 : slot 17)
HCU 4
# UBVI 60 6 ( 60V V/I Source in Universal Backplane 1 : slot 15)
HCU 7
HCU 8
HCU 9
DATABITS 1 - 48
# UB_MATRIX
#
# Testhead 1
# XPTs UB Cage Slot Type
# 1-4 1 2 Matrix
# 5-8 1 3 Matrix
# 9-12 1 4 Matrix
# 13-16 1 5 Matrix
# 17-20 1 6 Matrix
# 21-24 1 7 Matrix
# 25-28 1 8 Matrix
# 29-32 1 9 Matrix
# 33-36 1 10 Matrix
# 37-40 1 11 Matrix
# 41-44 1 12 Matrix
# 45-48 1 13 Matrix
END
Configuration 2:
# Catalyst tester cat2
#
# cat2 is a 2 processor system
# Processor 1: 450 MHz sparcv9 (online)
# Processor 3: 450 MHz sparcv9 (online)
# PCI based system
# Terabus is present
# Board ID 949-824-00
# TCI is present
#
CATALYST_TH 1
BACKPLANE A
#Slot Type Num XptA XptB Name
2 000-000-00 0 # 23 24 EMPTY
3 000-000-00 0 # 21 22 EMPTY
4 000-000-00 0 # 19 20 EMPTY
5 879-792-01 0 # 17 18 TIME CC
6 939-227-50 0 # 15 16 GIGADIG CC
7 949-916-50 0 # 13 14 AWGLAN CC
8 000-000-00 0 # 11 12 EMPTY
9 879-906-51 0 # 9 10 VHFCW CC
10 949-681-50 0 # 7 8 VHFAWG400 DIFF CC
11 949-831-50 0 # 5 6 1G VHFD CC
14 949-681-50 0 # 25 26 VHFAWG400 DIFF CC
15 949-831-50 0 # 27 28 1G VHFD CC
16 803-595-02 0 # 29 30 UWMM
17 000-000-00 0 # 31 32 EMPTY
18 803-596-07 0 # 33 34 UWPORT
19 803-594-00 0 # 35 36 UHFSRC CC
20 803-594-00 0 # 37 38 UHFSRC CC
21 000-000-00 0 # 39 40 EMPTY
22 000-000-00 0 # 41 42 EMPTY
23 000-000-00 0 # 43 44 EMPTY
1 949-669-00 0 # 3 0 HAS (Left HAS LA669-00)
13 949-668-00 0 # 0 0 CATALYST HAC
12 949-667-00 0 # 0 0 DIF
24 949-669-01 0 # 4 0 HAS (Right HAS LA669-01)
END
RF_PIPES 1
# pipe-name slot schan description
Z4A 18 1 # UWPORT (OSP)
Z3A 18 2 # UWPORT (OSP)
Z2A 18 3 # UWPORT (OSP)
Z1A 18 4 # UWPORT (OSP)
Z4A 18 1 # UWPORT (OSP)
Z3A 18 2 # UWPORT (OSP)
Z2A 18 3 # UWPORT (OSP)
Z1A 18 4 # UWPORT (OSP)
Z12C 6 3 # GIGADIG CC (OSP)
Z10C 6 5 # GIGADIG CC (OSP)
Z9C 11 9 # 1G VHFD CC (OSP)
Z8C 15 9 # 1G VHFD CC (OSP)
Z5C 18 5 # UWPORT (OSP)
Z4C 18 6 # UWPORT (OSP)
Z12C 6 3 # GIGADIG CC (OSP)
Z10C 6 5 # GIGADIG CC (OSP)
Z5C 18 5 # UWPORT (OSP)
Z4C 18 6 # UWPORT (OSP)
Z12D 6 1 # GIGADIG CC (OSP)
Z10D 6 4 # GIGADIG CC (OSP)
Z9D 11 8 # 1G VHFD CC (OSP)
Z8D 15 8 # 1G VHFD CC (OSP)
Z5D 18 7 # UWPORT (OSP)
Z4D 18 8 # UWPORT (OSP)
Z12D 6 1 # GIGADIG CC (OSP)
Z10D 6 4 # GIGADIG CC (OSP)
Z5D 18 7 # UWPORT (OSP)
Z4D 18 8 # UWPORT (OSP)
END
RF_CONNECTIONS 1
# RF pipe connections between channel cards
# slot schan slot schan
16 1 to 18 7
19 1 to 18 5
20 1 to 18 6
END
#
# Up to 4 Precision AC Card Cages are allowed
#
PRECISION_AC 1
#Slot Type Num Name
1 949-664-00 0 # VHFDIG MF
2 949-664-00 0 # VHFDIG MF
3 949-915-01 0 # AWGLAN (8Meg)
4 949-827-00 0 # VHFAWG
5 949-827-00 0 # VHFAWG
6 949-320-00 0 # UWMS
7 000-000-00 0 # EMPTY
8 949-671-01 0 # PACS CAGE INT
END
PRECISION_AC 2
#Slot Type Num Name
1 949-664-20 0 # GIGADIG MF
2 000-000-00 0 # EMPTY
3 000-000-00 0 # EMPTY
4 000-000-00 0 # EMPTY
5 949-320-00 0 # UWMS
6 000-000-00 0 # EMPTY
7 000-000-00 0 # EMPTY
8 949-671-01 0 # PACS CAGE INT
END
#
# Up to 8 Universal Backplane/Synch Power Subsystem
# cages are allowed
#
# For the Synch Power Subsystem:
# Slot Type Name Instr1 # Instr2 # Ammeter #
#
# Instr1 # - insrument connected to the first two matrix lines
# Instr2 # - insrument connected to the last two matrix lines
# Ammeter # - ammeter connection
# to AVOID errors, put NO 0 if no instrument is connected.
#
#
UB_SPS_CAGE 1
# Slot Type Num Name
1 879-802-02 0 # UB_SPS_802
2 517-301-01 0 # UB_MATRIX
3 517-301-01 0 # UB_MATRIX
4 517-301-01 0 # UB_MATRIX
5 517-301-01 0 # UB_MATRIX
6 517-301-01 0 # UB_MATRIX
7 517-301-01 0 # UB_MATRIX
8 517-301-01 0 # UB_MATRIX
9 517-301-01 0 # UB_MATRIX
10 517-301-01 0 # UB_MATRIX
11 517-301-01 0 # UB_MATRIX
12 517-301-01 0 # UB_MATRIX
13 517-301-01 0 # UB_MATRIX
14 879-925-01 0 # UB_60_V_SRC MAT 1
15 879-925-01 0 # UB_60_V_SRC DUT 1
16 879-925-01 0 # UB_60_V_SRC MAT 3
17 879-925-01 0 # UB_60_V_SRC MAT 2
21 879-690-00 0 # UB_ASY
22 517-300-01 0 # UB_TJ300
END
HSD100_CHAN_CAGE 1
#Slot Type Num Fld1 Fld2 Name
1 949-921-01 0 # HSD CDM 400
2 949-921-01 0 # HSD CDM 400
3 949-921-01 0 # HSD CDM 400
4 949-921-01 0 # HSD CDM 400
5 949-920-10 0 # HSD CSB
END
HSD100_CHAN_CAGE 2
#Slot Type Serial # Num Fld1 Fld2 Name
5 949-820-00 0x3041cd5 0 # HSD CSB
END
CATALYST_TH 1
BACKPLANE B
#Slot Type Num Name
29 949-626-10 0 # HSD THS
47 949-626-10 0 # HSD THS
61 949-625-00 0 # HSD DTH
62 949-625-00 0 # HSD DTH
63 949-625-00 0 # HSD DTH
64 949-625-00 0 # HSD DTH
65 949-626-00 0 # HSD THS
66 949-625-00 0 # HSD DTH
67 949-625-00 0 # HSD DTH
68 949-625-00 0 # HSD DTH
69 949-625-00 0 # HSD DTH
74 949-626-10 0 # HSD THS
END
#
# Trigger Switch Yard
#
# Note: The logical slot numbers below correspond to the physical slot
# numbers only for test systems which contain a TSY card
# cage. In test systems which contain an SCS/TSY card cage the
# mapping is:
#
# Logical TSY slot (below) Physical slot
# 1 -> 2
# 3 -> 1
#
TSY CAGE
#Slot Type Num Name
1 879-655-02 0 # TSY
2 000-000-00 0 # EMPTY
3 000-000-00 0 # EMPTY
4 000-000-00 0 # EMPTY
END
#
# Time Subsystem
#
TIME_SUBSYSTEM
# Board ID Name
879-793-00 # TMS Timer
879-794-01 # TMS Counter
879-795-01 # TMS Support
END
# The UWMS option resides in the PACS cage and is composed of two
# plug-in modules that may reside in one of three locations A, B or C.
# A zero in the type field indicates no plug-in module.
# PACS_UW <n> - indicates PACS cage number of these UWMS options
# Slot - indicates slot number and module position for this UWMS option
# Type - board identification number
# AWG Num - AWG instrument number connected to this UWMS option
# UHFSRC Num - UHF instrument number that has this UWMS option
# MODSRC Num - First or second MODSRC connected to above UHFSRC
#
PACS_UW 1
# AWG UHFSRC MODSRC
#Slot Type Rev Date Num Num Num Name
6 949-320-00 A 0226-0 2 1 1 # UWMS
6A 949-330-00 A 9944-0 # UWMS UP CONV
6B 000-000-00 0 0000-0
6C 949-333-00 C 0308-0 # UWMS MUX
END
#
PACS_UW 2
# AWG UHFSRC MODSRC
#Slot Type Rev Date Num Num Num Name
5 949-320-00 A 0226-0 2 1 2 # UWMS
5A 949-330-20 A 0312-0 # MODSRC6000 UP CONV
5B 000-000-00 0 0000-0
5C 939-204-00 A 0331-0 # MODSRC6000 MUX
END
#
#
# The UWPORT option modules are composed of plug-in modules.
# The names list in the first column indicate the presence of
# the option modules for the uwport.
#
UWPORT_OPTIONS_HEAD 1
#
# Name Slot Type Serial # Rev Num Date
PORT 18 803-596-07 0x02221dd B 1 # 0306-0
NOISE 18 733-104-00 0x00147e6 A 1 # 9923-0
END
#
# DC Subsystem -
#
# SRC <NUM> [1 - 13]
# (sources 1-5 are MATRIX sources 1-5
# sources 6-13 are DUT sources 1-8)
# HCU <NUM> *[1 - 4]
# REF HCU <NUM> *[1 - 4]
# HVSRC <NUM> *[1 - 4]
# PWRSRC <NUM> [1 - 4]
# DATABITS <NUM> - <NUM> [1 - 192]
#
# ** These instruments share the same seven-slot cage -- only one
# instrument is allowed per slot.
#
DC_SUBSYSTEM
# UBVI 60 1 ( 60V V/I Source in Universal Backplane 1 : slot 14)
# UBVI 60 2 ( 60V V/I Source in Universal Backplane 1 : slot 17)
# UBVI 60 3 ( 60V V/I Source in Universal Backplane 1 : slot 16)
HCU 4
# UBVI 60 6 ( 60V V/I Source in Universal Backplane 1 : slot 15)
HCU 7
HCU 8
HCU 9
DATABITS 1 - 48
# UB_MATRIX
#
# Testhead 1
# XPTs UB Cage Slot Type
# 1-4 1 2 Matrix
# 5-8 1 3 Matrix
# 9-12 1 4 Matrix
# 13-16 1 5 Matrix
# 17-20 1 6 Matrix
# 21-24 1 7 Matrix
# 25-28 1 8 Matrix
# 29-32 1 9 Matrix
# 33-36 1 10 Matrix
# 37-40 1 11 Matrix
# 41-44 1 12 Matrix
# 45-48 1 13 Matrix
END.
TERADYNE Catalyst RF est un équipement d'essai final automatisé conçu pour diagnostiquer et tester des dispositifs radiofréquence (RF) avec une grande précision et répétabilité. Le système est alimenté par TERADYNE Catalyst, une plate-forme de mesure et de simulation avancée, performante et peu coûteuse qui combine logiciel et matériel pour optimiser et réduire les coûts tout en améliorant la précision globale des tests et des analyses. L'unité comprend une variété de fonctionnalités personnalisées, des tests de linéarité des amplificateurs au fonctionnement en mode SmartSweep, pour garantir des tests fiables et précis. L'architecture flexible permet une grande variété de tests avancés et sophistiqués dans une seule machine. La fonction de balayage intelligent et les capacités de réglage automatique avancées permettent aux utilisateurs d'ajuster rapidement les paramètres de test et de saisir une large gamme de données de performance de leur appareil en cours de test (DUT). L'outil comprend également une modulation AM/FM, un balayage de puissance et des réglages de puissance pour vérifier les niveaux de puissance et les caractéristiques de transfert d'une grande variété d'appareils RF. L'actif peut tester une variété de dispositifs RF, de la bande unique à la bande multiple et multi-MHz. La plate-forme catalytique RF réduit les coûts totaux en rationalisant considérablement le processus de test et de simulation, éliminant la nécessité de changer entre différents bancs et outils d'essai. En outre, le modèle est modulaire, permettant l'expansion et la personnalisation pour répondre aux exigences spécifiques des applications. L'équipement comprend également des outils d'automatisation tels que MS Windows et Linux, ainsi que des outils standard d'édition d'interface graphique et de script. Les capacités de test et de diagnostic avancées du système RF permettent aux utilisateurs d'évaluer, d'optimiser et de diagnostiquer leurs appareils RF avec précision et répétabilité. L'unité est également très flexible et configurable permettant aux utilisateurs de personnaliser les tests et les résultats pour répondre à leurs besoins spécifiques. En outre, la machine est conçue pour un entretien facile et peut être mise à jour rapidement pour intégrer de nouvelles technologies. TERADYNE Catalyst RF outil est une plate-forme de test final avancée et rentable, fournissant aux utilisateurs des résultats précis et fiables dans un banc d'essai unique.
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