The Datasheet Archive

Top Results (6)

Part ECAD Model Manufacturer Description Datasheet Download Buy Part
ISL2111AR4Z-T ISL2111AR4Z-T ECAD Model Renesas Electronics Corporation $ Drives N-Channel MOSFET half-bridge $ SOIC, DFN, and TDFN package options $ SOIC, DFN, and TDFN packages compliant with 100V conductor spacing guidelines per IPC-2221 $ Pb-free (RoHS compliant) $ Bootstrap supply max voltage to 114VDC $ On-chip 1W bootstrap diode $ Fast propagation times for multi-MHz circuits $ Drives 1nF load with typical rise/fall times of 9ns/7.5ns $ CMOS compatible input thresholds (ISL2110) $ 3.3V/TTL compatible input thresholds (ISL2111) $ Independent inputs provide flexibility $ No start-up problems $ Outputs unaffected by supply glitches, HS ringing below ground or HS slewing at high dv/dt $ Low power consumption $ Wide supply voltage range (8V to 14V) $ Supply undervoltage protection $ 1.6W/1W typical output pull-up/pull-down resistance
ISL2111ABZ-T ISL2111ABZ-T ECAD Model Renesas Electronics Corporation $ Drives N-Channel MOSFET half-bridge $ SOIC, DFN, and TDFN package options $ SOIC, DFN, and TDFN packages compliant with 100V conductor spacing guidelines per IPC-2221 $ Pb-free (RoHS compliant) $ Bootstrap supply max voltage to 114VDC $ On-chip 1W bootstrap diode $ Fast propagation times for multi-MHz circuits $ Drives 1nF load with typical rise/fall times of 9ns/7.5ns $ CMOS compatible input thresholds (ISL2110) $ 3.3V/TTL compatible input thresholds (ISL2111) $ Independent inputs provide flexibility $ No start-up problems $ Outputs unaffected by supply glitches, HS ringing below ground or HS slewing at high dv/dt $ Low power consumption $ Wide supply voltage range (8V to 14V) $ Supply undervoltage protection $ 1.6W/1W typical output pull-up/pull-down resistance
ISL2100AAR3Z-T ISL2100AAR3Z-T ECAD Model Renesas Electronics Corporation $ Drives N-Channel MOSFET Half-Bridge $ Space-Saving DFN Package $ DFN Package Compliant with 100V Conductor Spacing Guidelines per IPC-2221 $ Pb-Free (RoHS compliant) $ Bootstrap Supply Max Voltage to 114VDC $ On-Chip 1Ω Bootstrap Diode $ Fast Propagation Times for Multi-MHz Circuits $ Drives 1nF Load with Typical Rise/Fall Times of 10ns $ CMOS Compatible Input Thresholds (ISL2100A) $ 3.3V/TTL Compatible Input Thresholds (ISL2101A) $ Independent Inputs Provide Flexibility $ No Start-Up Problems $ Outputs Unaffected by Supply Glitches, HS Ringing Below Ground or HS Slewing at High dv/dt $ Low Power Consumption $ Wide Supply Voltage Range (9V to 14V) $ Supply Undervoltage Protection $ 2.5Ω Typical Output Pull-Up/Pull-Down Resistance
ISL2101AAR3Z-T ISL2101AAR3Z-T ECAD Model Renesas Electronics Corporation $ Drives N-Channel MOSFET Half-Bridge $ Space-Saving DFN Package $ DFN Package Compliant with 100V Conductor Spacing Guidelines per IPC-2221 $ Pb-Free (RoHS compliant) $ Bootstrap Supply Max Voltage to 114VDC $ On-Chip 1Ω Bootstrap Diode $ Fast Propagation Times for Multi-MHz Circuits $ Drives 1nF Load with Typical Rise/Fall Times of 10ns $ CMOS Compatible Input Thresholds (ISL2100A) $ 3.3V/TTL Compatible Input Thresholds (ISL2101A) $ Independent Inputs Provide Flexibility $ No Start-Up Problems $ Outputs Unaffected by Supply Glitches, HS Ringing Below Ground or HS Slewing at High dv/dt $ Low Power Consumption $ Wide Supply Voltage Range (9V to 14V) $ Supply Undervoltage Protection $ 2.5Ω Typical Output Pull-Up/Pull-Down Resistance
ISL89401ABZ ISL89401ABZ ECAD Model Renesas Electronics Corporation $ Drives N-channel MOSFET half-bridge $ Space saving DFN package $ DFN package compliant with 100V conductor spacing guidelines per IPC-2221 $ Pb-free (RoHS compliant) $ Bootstrap supply maximum voltage to 114VDC $ On-chip 1Ω bootstrap diode $ Fast propagation times for multi-MHz circuits $ Drives 1nF load with typical rise/fall times of 16ns $ CMOS compatible input thresholds (ISL89400) $ 3.3V/TTL compatible input thresholds (ISL89401) $ Independent inputs provide flexibility $ No start-up problems $ Outputs unaffected by supply glitches, HS ringing below ground or HS slewing at high dV/dt $ Low power consumption $ Wide supply voltage range (9V to 14V) $ Supply undervoltage protection $ 4.0Ω typical output pull-up/pull-down resistance
ISL2110AR4Z-T ISL2110AR4Z-T ECAD Model Renesas Electronics Corporation $ Drives N-Channel MOSFET half-bridge $ SOIC, DFN, and TDFN package options $ SOIC, DFN, and TDFN packages compliant with 100V conductor spacing guidelines per IPC-2221 $ Pb-free (RoHS compliant) $ Bootstrap supply max voltage to 114VDC $ On-chip 1W bootstrap diode $ Fast propagation times for multi-MHz circuits $ Drives 1nF load with typical rise/fall times of 9ns/7.5ns $ CMOS compatible input thresholds (ISL2110) $ 3.3V/TTL compatible input thresholds (ISL2111) $ Independent inputs provide flexibility $ No start-up problems $ Outputs unaffected by supply glitches, HS ringing below ground or HS slewing at high dv/dt $ Low power consumption $ Wide supply voltage range (8V to 14V) $ Supply undervoltage protection $ 1.6W/1W typical output pull-up/pull-down resistance

IPC-6908BP-BE datasheet (1)

Part ECAD Model Manufacturer Description Type PDF
IPC-6908BP-BE IPC-6908BP-BE ECAD Model Advantech Uncategorized - Miscellaneous - DESKTOP 8-SLOT IPC BAREBONE CHAS Original PDF

IPC-6908BP-BE Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
300ATX

Abstract: IPC-6908 alarm PS-400ATX-ZBE PFC300 atx power supply 400 watts RPS-300ATX-ZE IPC-6908 power supply redundant atx ATX 2011
Text: ] 463.0 [18.23] Ordering Information Part Number IPC-6908BP-BE IPC-6908BP-30ZBE Power Supply PS


Original
PDF IPC-6908 2002/95/EC IPC-6908BP-BE IPC-6908BP-30ZBE PS-300ATX-ZBE PS-250ATX-ZE PS-300ATX-ZBE PS-400ATX-ZBE PS-300ATX-DC48E RPS-300ATX-ZE 300ATX IPC-6908 alarm PS-400ATX-ZBE PFC300 atx power supply 400 watts RPS-300ATX-ZE IPC-6908 power supply redundant atx ATX 2011
2001 - DATASHEET SCR 131

Abstract: 75P52100 AN-268 AN-269
Text: power up. A single IDT75T43100 device can be used or multiple devices can be grouped together for , Sequence: The Reset signal (RST) must be active (Low) on power up and must remain low while all the , that the RST and REQSTB signals be low and the clock signals be active for a minimum of thirty-two , /FPGA. This enables the RDACK, HITACK and VALID signals to be driven. Set the REQSTB signal High for , RST must be active (low) at power up and remain active until Step 3. Power supplies and Clock signals


Original
PDF IDT75T43100 AN-269 75P52100 AN-268 IDT75T43100 DATASHEET SCR 131 AN-268 AN-269
2001 - scr 6A

Abstract: 75P52100 AN-268
Text: power up. A single IDT75T54100 device can be used or multiple devices can be grouped together for , ) must be active (Low) on power up and must remain low while all the power signals (VDD, VDDQ, VMATCH , supplies and clock signals have stabilized, the IPC requires that the RST and REQSTB signals be low and the clock signals be active for a minimum of thirty-two CLK2X clock cycles to insure proper , signals to be driven. Set the REQSTB signal High for two CLK2X cycles to signal the start of a valid IPC


Original
PDF IDT75T54100 AN-268 75P52100 IDT75T54100 use0000001" scr 6A AN-268
2002 - 75K62100

Abstract: 75P42100 75P52100 AN-279 IDT75P42100
Text: provides array segments which can be configured to enable multiple width lookups from 36 to 576 bits wide , the device power. Only the array segments that will be used for a specific IPC operation are powered , routers, a system configuration as shown in Figure 1.0 may be realized. Maximum flexibility is provided by allowing one board design to be populated today using either IDT's 75P42100 or 75P52100 IPCs and , hookup to ZBTTM or Synchronous Pipeline Burst SRAM. Lookup results can also be fed directly back to the


Original
PDF 75P42100 IDT75P42100 75P42100 75K62100 75P52100 AN-279
DATASHEET SCR 131

Abstract: 75P52100 AN-268 AN-269
Text: power up. A single IDT75T43100 device can be used or multiple devices can be grouped together for , Powering Up a Single Device Sequence: The Reset signal (RST) must be active (Low) on power up and must , , the IPC requires that the RST and REQSTB signals be low and the clock signals be active for a , signals back to the ASIC/FPGA. This enables the RDACK, HITACK and VALID signals to be driven. Set the , RST must be active (low) at power up and remain active until Step 3. Power supplies and Clock signals


Original
PDF IDT75T43100 AN-269 75P52100 AN-268 IDT75T43100 DATASHEET SCR 131 AN-268 AN-269
2001 - DATASHEET SCR 131

Abstract: 75P52100 AN-268 AN-269
Text: power up. A single IDT75T43100 device can be used or multiple devices can be grouped together for , Sequence: The Reset signal (RST) must be active (Low) on power up and must remain low while all the , that the RST and REQSTB signals be low and the clock signals be active for a minimum of thirty-two , /FPGA. This enables the RDACK, HITACK and VALID signals to be driven. Set the REQSTB signal High for , RST must be active (low) at power up and remain active until Step 3. Power supplies and Clock signals


Original
PDF IDT75T43100 AN-269 75P52100 AN-268 IDT75T43100 DATASHEET SCR 131 AN-268 AN-269
2002 - 75T43100

Abstract: DATASHEET SCR 131 75P52100 AN-268 AN-269
Text: describes how to initialize the IPC from power up. A single IDT75T43100 device can be used or multiple devices can be grouped together for depth expansion. The first part of this application note will , Reset signal (RST) must be active (Low) on power up and must remain low while all the power signals , signals be low and the clock signals be active for a minimum of thirty-two CLK2X clock cycles to insure , , HITACK and VALID signals to be driven. Set the REQSTB signal High for two CLK2X cycles to signal the


Original
PDF IDT75T43100 AN-269 IDT75T43100 75T43100 DATASHEET SCR 131 75P52100 AN-268 AN-269
2002 - 75p42100

Abstract: 75K62100 75K76102 75P52100 IPC SYSTEM DIAGRAM
Text: provides array segments which can be configured to enable multiple width lookups from 36 to 576 bits wide , will be used for a specific IPC operation are powered up while the unused segments are not. The IDT , solutions requiring data searching such as routers, a system configuration as shown in Figure 1.0 may be realized. Maximum flexibility is provided by allowing one board design to be populated today using either , Synchronous Pipeline Burst SRAM. Lookup results can also be fed directly back to the ASIC/ FPGA without the


Original
PDF 75K76102 IDT75K76102 75K76102 75p42100 75K62100 75P52100 IPC SYSTEM DIAGRAM
2002 - free circuit diagram of hard disk

Abstract: PC HARD DISK CIRCUIT diagram SBC8260 hard disk service manual 10H4056 ipc 610 Class 3 pc monitor female connector dimensions HARD DISK power supply diagram sbc 83 IPC repairs
Text: 1100 can be used in control cabinets or, because it is fitted with 10/100 Mbit Ethernet as standard, in distributed control system architectures. An INTERBUS controller board can be used to create a , drives or CD-ROM drives cannot be integrated in the surface of the housing. To enable the connection of , injury. The note symbol informs you of conditions that must strictly be observed to achieve errorfree , : Intel PIII 800 MHz, FSB 133 MHz ­ Main memory: 64 MB RAM (can be upgraded to 256 MB by


Original
PDF PC/104 free circuit diagram of hard disk PC HARD DISK CIRCUIT diagram SBC8260 hard disk service manual 10H4056 ipc 610 Class 3 pc monitor female connector dimensions HARD DISK power supply diagram sbc 83 IPC repairs
2001 - sbc gxm

Abstract: free circuit diagram of hard disk 10H4056 8 pin mini-din diagram usb to 8 pin mini-din iPC1100 IPC SYSTEM DIAGRAM GXM266 ipc 610 Class 3 Macronix* serial secure flash 128 Mb
Text: . However, even as an industrial PC with hard disk, the IPC 1100 can be used in control cabinets or , . An INTERBUS controller board can be used to create a stable and robust automation system. Despite , be integrated in the surface of the housing. To enable the connection of a floppy disk drive, the , strictly be observed to achieve errorfree operation. It also gives you tips and advice on the efficient use , . The manufacturer or authorized service personnel must be consulted for all other modifications. The


Original
PDF TNR90 sbc gxm free circuit diagram of hard disk 10H4056 8 pin mini-din diagram usb to 8 pin mini-din iPC1100 IPC SYSTEM DIAGRAM GXM266 ipc 610 Class 3 Macronix* serial secure flash 128 Mb
2001 - SBC8161

Abstract: intel celeron 633 FAT16 RTL8139 ipc 610 Class 3 9 pin mini-din monitor connector free circuit diagram of hard disk 6 pin mini-din monitor connector V424
Text: slots can be used in different combinations. In PHOENIX CONTACT industrial PCs, largescale integrated , free ISA and PCI slots can be used to integrate INTERBUS controller boards, measuring boards or other , also integrated. A CD-ROM drive can be integrated as an option. The IPC 1400 also has integrated hardware, fan, and temperature monitoring. These monitoring mechanisms can be evaluated externally using , cabinet (wall mounted). Even when mounted, the hood can be opened quickly and easily, e.g., so that


Original
PDF TNR90 SBC8161 intel celeron 633 FAT16 RTL8139 ipc 610 Class 3 9 pin mini-din monitor connector free circuit diagram of hard disk 6 pin mini-din monitor connector V424
2001 - 75P52100

Abstract: AN-268 t54100
Text: power up. A single IDT75T54100 device can be used or multiple devices can be grouped together for , ) must be active (Low) on power up and must remain low while all the power signals (VDD, VDDQ, VMATCH , supplies and clock signals have stabilized, the IPC requires that the RST and REQSTB signals be low and the clock signals be active for a minimum of thirty-two CLK2X clock cycles to insure proper , signals to be driven. Set the REQSTB signal High for two CLK2X cycles to signal the start of a valid IPC


Original
PDF IDT75T54100 AN-268 75P52100 IDT75T54100 AN-268 t54100
2002 - 133M

Abstract: 75K62100 75P42100 75P52100 AN-279 IDT75K62100
Text: provides array segments which can be configured to enable multiple width lookups from 36 to 576 bits wide , will be used for a specific IPC operation are powered up while the unused segments are not. The IDT , solutions requiring data searching such as routers, a system configuration as shown in Figure 1.0 may be realized. Maximum flexibility is provided by allowing one board design to be populated today using either , can also be fed directly back to the ASIC/ FPGA without the use of external SRAM. Control of the


Original
PDF 75K62100 IDT75K62100 75K62100 133M 75P42100 75P52100 AN-279
2002 - IPC SYSTEM DIAGRAM

Abstract: 6077 ternary content addressable memory
Text: provides array segments which can be configured to enable multiple width lookups from 36 to 576 bits wide , will be used for a specific IPC operation are powered up while the unused segments are not. The IDT , solutions requiring data searching such as routers, a system configuration as shown in Figure 1.0 may be realized. Maximum flexibility is provided by allowing one board design to be populated today using either , Synchronous Pipeline Burst SRAM. Lookup results can also be fed directly back to the ASIC/ FPGA without the


Original
PDF 75K76100 IDT75K76100 75K76100 IPC SYSTEM DIAGRAM 6077 ternary content addressable memory
2002 - 75K62100

Abstract: 75K76100 75P42100 75P52100
Text: provides array segments which can be configured to enable multiple width lookups from 36 to 576 bits wide , will be used for a specific IPC operation are powered up while the unused segments are not. The IDT , solutions requiring data searching such as routers, a system configuration as shown in Figure 1.0 may be realized. Maximum flexibility is provided by allowing one board design to be populated today using either , Synchronous Pipeline Burst SRAM. Lookup results can also be fed directly back to the ASIC/ FPGA without the


Original
PDF 75K76100 IDT75K76100, 75K76100 75K62100 75P42100 75P52100
2001 - Not Available

Abstract: No abstract text available
Text: of route table entries. This device provides array segments which can be configured to widths of 72 , data searching such as routers, a network interface as shown in Fig 1.0 may be realized. Here the IPC , signals to directly hookup to ZBTTM or Synchronous Pipeline Burst SRAM. IDT's IPC can also be configured , Read An SRAM No Wait Read is a Read instruction to an external SRAM that can be pipelined within a , simultaneous writes to a Data entry and a respective external SRAM location. x Lookup A lookup can be


Original
PDF IDT75P52100
2002 - 75P52100

Abstract: AN-275 IDT75P52100
Text: " describes how to initialize the IPC from power up. A single IDT75P52100 device can be used or multiple devices can be grouped together for depth expansion. Part one of the application note discuss how to , . Significant power savings can be achieved with this IPC because it has been designed to power up only the array segments that will be used for a specific IPC operation. IDT75P52100 Device Description IDT , be configured to widths of 72 to 288 bits enabling multiple width lookup 36 to 288 bits wide. The


Original
PDF AN-275 IDT75P52100 AN-275 IDT75P52100 DSC-5340/00 75P52100
2001 - 75K62100

Abstract: 75P42100 75P52100 AN-279 IDT75P42100
Text: provides array segments which can be configured to enable multiple width lookups from 36 to 576 bits wide , the device power. Only the array segments that will be used for a specific IPC operation are powered , routers, a system configuration as shown in Figure 1.0 may be realized. Maximum flexibility is provided by allowing one board design to be populated today using either IDT's 75P42100 or 75P52100 IPCs and , hookup to ZBTTM or Synchronous Pipeline Burst SRAM. Lookup results can also be fed directly back to the


Original
PDF 75P42100 IDT75P42100 75P42100 75K62100 75P52100 AN-279
2002 - 133M

Abstract: 75K62100 75P42100 75P52100 AN-279 IDT75K62100
Text: provides array segments which can be configured to enable multiple width lookups from 36 to 576 bits wide , will be used for a specific IPC operation are powered up while the unused segments are not. The IDT , solutions requiring data searching such as routers, a system configuration as shown in Figure 1.0 may be realized. Maximum flexibility is provided by allowing one board design to be populated today using either , can also be fed directly back to the ASIC/ FPGA without the use of external SRAM. Control of the


Original
PDF 75K62100 IDT75K62100 75K62100 133M 75P42100 75P52100 AN-279
2002 - 75K62100

Abstract: AN-282 IDT75K62100
Text: " describes how to initialize the IPC from power up. A single IDT75K62100 device can be used or multiple devices can be grouped together for depth expansion. Part one of the application note discuss how to , sustained searches per second. This device provides array segments which can be configured to widths of 72 , control in determining the device power because only the array segments that will be used for a specific , . Significant power savings can be achieved with this IPC because it has been designed to power up only the


Original
PDF AN-282 IDT75K62100 IDT75K62100 75K62100 128Kx72 75K62100 DSC-6066/01 AN-282
2001 - 75K62100

Abstract: AN-282 IDT75K62100 AN282
Text: the IPC from power up. A single IDT75K62100 device can be used or multiple devices can be grouped , sustained searches per second. This device provides array segments which can be configured to widths of 72 , flexibility and control in determining the device power because only the array segments that will be used for , second. Significant power savings can be achieved with this IPC because it has been designed to power up only the array segments that will be used for a specific IPC operation. OCTOBER 2001 1


Original
PDF AN-282 IDT75K62100 IDT75K62100 75K62100 128Kx72 75K62100 DSC-6066/00 AN-282 AN282
2001 - SRAM 6116

Abstract: 5333-02 75P52100 IDT75P52100 ternary content addressable memory ternary
Text: can be configured to widths of 72 to 288 bits enabling multiple width lookup 36 to 288 bits wide , the device power. Only the array segments that will be used for a specific IPC operation are powered , Fig 1.0 may be realized. Here the IPC interfaces directly to an ASIC/ FPGA for lookups and routes an , Pipeline Burst SRAM. IDT's IPC can also be configured without using the SRAM interface. The IPC can , match to a requested data word. x Lookup A lookup can be requested in 72-bit, 144-bit or 288


Original
PDF 75P52100 75P52100 SRAM 6116 5333-02 IDT75P52100 ternary content addressable memory ternary
2002 - 75K62100

Abstract: 75P42100 75P52100 AN-279 IDT75P52100 IPC SYSTEM DIAGRAM
Text: provides array segments which can be configured to enable multiple width lookups from 36 to 576 bits wide , the device power. Only the array segments that will be used for a specific IPC operation are powered , routers, a system configuration as shown in Figure 1.0 may be realized. Maximum flexibility is provided by allowing one board design to be populated today using either IDT's 75P42100 or 75P52100 IPCs and , hookup to ZBTTM or Synchronous Pipeline Burst SRAM. Lookup results can also be fed directly back to the


Original
PDF 75P52100 IDT75P52100 75P52100 75K62100 75P42100 AN-279 IPC SYSTEM DIAGRAM
2001 - SRAM 6116

Abstract: AN-271 nps a14
Text: IPC is a powerful and efficient peripheral that can be used with all of the various Network , . Additionally, there can be an external SRAM to hold the associated data to that of the data stored within the , structure will be used to illustrate the discussion: CCLK cycle X the CCLK cycle that the bus activity , required to be specified as per the discussion = Optional Parameters - optional parameters whose value may be selected by the user as per the user's requirements = N/A - data that is not


Original
PDF AN-271 IDT75T43100 SRAM 6116 AN-271 nps a14
2001 - 75P52100

Abstract: 75K62100 75P42100 AN-279 IDT75P52100
Text: provides array segments which can be configured to enable multiple width lookups from 36 to 576 bits wide , the device power. Only the array segments that will be used for a specific IPC operation are powered , routers, a system configuration as shown in Figure 1.0 may be realized. Maximum flexibility is provided by allowing one board design to be populated today using either IDT's 75P42100 or 75P52100 IPCs and , hookup to ZBTTM or Synchronous Pipeline Burst SRAM. Lookup results can also be fed directly back to the


Original
PDF 75P52100 IDT75P52100 75P52100 75K62100 75P42100 AN-279
Supplyframe Tracking Pixel