p055 TRANSISTOR
Abstract: p055 power transistor Bus repeater
Text: PSX Family Data Sheet FEATURES DESCRIPTION • SRAM-based, in-system programmable • Switch Matrix — Non-Blocking — Programmable Bus Widths of 4, 8, 16 and 32 bits — Identical and Predictable Delays The PSX160, PSX128B and PSX96B are SRAM-based bus
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133MHz
p055 TRANSISTOR
p055 power transistor
Bus repeater
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Untitled
Abstract: No abstract text available
Text: PSX Family Data Sheet FEATURES DESCRIPTION • SRAM-based, in-system programmable • Switch Matrix — Non-Blocking — Programmable Bus Widths of 4, 8, 16 and 32 bits — Identical and Predictable Delays — One-to-One, One-to-Many and Many-to-One Connections
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133MHz
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Untitled
Abstract: No abstract text available
Text: Application Brief Combining Time and Space Switching with the PSX Family 1.0 Overview Telecommunications systems have traditionally used two techniques for switching data streams. The first technique, commonly called time division multiplexing TDM , or time switching, is used to switch continuous data
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I-CUBE iq
Abstract: orcad crossbar switch I-CUBE
Text: I-Cube 2000 Product Overview The Crossbar l Key building block for system development – Used for switching, muxing, demuxing, concentrating, grooming, signal routing, …. i.e. not just as a switch! l Fundamental technology used to build larger scale switching fabrics
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IDBIQ96SK
IDBIQX320SK
IDS100
IDBPSX160SK
IDBMSX532SK
53Gbps
I-CUBE iq
orcad crossbar switch
I-CUBE
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IQX320-10PB416
Abstract: orcad symbols IQ96-PQ144 IQX160 "Video Switches" IQX160-PQ208 pb416 PQ208 IQX320 pqfp
Text: PRODUCT MARKETING NEWSLETTER From the Leaders of Advanced Switching Solutions in Silicon • Digital Crosspoint Switching DCS < 1ns output-to-output skew These features make the MSX532 ideal for the following switching applications: • Telecom and datacom switching
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MSX532
IDS100
IQX320
IQX240B
IQX160
IQX128B
IQX320-PB416
IQX320-10PB416
orcad symbols
IQ96-PQ144
IQX160
"Video Switches"
IQX160-PQ208
pb416
PQ208
IQX320
pqfp
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vhdl code for crossbar switch
Abstract: I-CUBE
Text: Application Note Implementing an 8 Input x 8 Output Cell Switch Using PSX Devices 1.0 Introduction Several crossbar applications require that the connections through the Switch Matrix be made quickly. The PSX family uses a dual configuration bank architecture. The RapidConnect interface combined with dual configuration banks allows the user to meet the fast reconfiguration requirement
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32-bit
PSX128B,
D-22-016]
vhdl code for crossbar switch
I-CUBE
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Untitled
Abstract: No abstract text available
Text: * 1-Cube PSX Family Data Sheet àÊL F eatures D e s c r ip t io n • SRAM -based, in-system programmable • Switch Matrix The PSX160, PSX128B and PSX96B are SRAM-based bus oriented switches with 160, 128 and 96 l/Os respectively. The devices are manufactured using a 0.6|jm CMOS process and
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PSX160,
PSX128B
PSX96B
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1P137
Abstract: transistor 1p137 HRC 2J 225 HRC 2J 225 ratings p055 TRANSISTOR DATASHEET P06368 P058l P057C Z1P041 P124l
Text: "É sSs«t ! * I-C u b e PSX Family Data Sheet F eatures D e s c r ip t io n • SRAM-based, in-system programmable The PSX160, PSX128B and PSX96B are SRAM-based bus • Switch Matrix oriented switches with 160, 128 and 96 l/Os respectively. The devices are manufactured using a 0.6|jm CMOS process and
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133MHz
1P137
transistor 1p137
HRC 2J 225
HRC 2J 225 ratings
p055 TRANSISTOR DATASHEET
P06368
P058l
P057C
Z1P041
P124l
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Untitled
Abstract: No abstract text available
Text: Introduction This manual provides the information needed to configure the PSX Family devices using the JTAG interface. It is intended for users who plan to write their own code to configure the PSX devices. In addition, this manual explains how the boundary scan features implemented in the PSX devices can be used
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PSX160,
PSX128B
PSX96B.
has27
DDD11SG
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transistor f151
Abstract: tms 374 biss 0001 je 243 JE 33 p626 PSX128B PSX96B I-CUBE 51P124
Text: Introduction This manual provides the information needed to configure the PSX Family devices using the JTAG interface. It is intended for users who plan to write their own code to configure the PSX devices. In addition, this manual explains how the boundary scan features implemented in the PSX devices can be used
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PSX128B
PSX96B.
0IIIG1152
transistor f151
tms 374
biss 0001
je 243
JE 33
p626
PSX96B
I-CUBE
51P124
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DP142
Abstract: p139d E2p 49 transistor Transistor z3p tbh 12-38 transistor BJ 102 131 E2p 98 transistor ND1220 pj 75 sx 34
Text: € E I " C l l b O P S X F a m ily D a ta S h e e t D escription Features • SR A M -based , In -system Program m able • Sw itch M atrix - N on-Blocking - Program m able Bus W idths of 4 ,8 ,1 6 and 32 bits - Id entical and Predictable D elays - O ne-to-O ne, O n e-to-M an y and M any-toO n e C onnections
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2328-C
DP142
p139d
E2p 49 transistor
Transistor z3p
tbh 12-38
transistor BJ 102 131
E2p 98 transistor
ND1220
pj 75 sx 34
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Data Vision P135
Abstract: I-CUBE Dp028d data vision p113 p039 tms 9980 processor P112-P115 4J, P113 5 PIN ln 7805 RG 5 OASIS
Text: I-Cube PSX Family Data Sheet Features Description SRAM-based, In-system Programmable Switch Matrix - Non-Blocking - Programmable Bus Widths of 4 ,8 ,1 6 and 32 bits - Identical and Predictable Delays - One-to-One, One-to-Many and Many-toOne Connections - RapidConnect parallel interface for
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2328-C
D-11-013
Data Vision P135
I-CUBE
Dp028d
data vision p113
p039
tms 9980 processor
P112-P115
4J, P113 5 PIN
ln 7805
RG 5 OASIS
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