Integrated Device Technology Datasheets for IC Interfaces
IC interfaces are semiconductor chips that are used to control and manage the sharing of information between devices.
IC Interfaces: Learn more
| Product Name | Notes |
|---|---|
| 312 | |
| Dual DDR I/ II fanout buffer for VIA Chipset | |
| JEDEC compliant Advanced Memory Buffer for Fully buffered DIMMs. 3.2, and 4.0 Gb/s serial speeds ( DDR2 -533 and 667 DRAM ). Support for up to eight DIMMs per channel. | |
| JEDEC compliant Advanced Memory Buffer for Fully buffered DIMMs. 3.2, and 4.0 Gb/s serial speeds ( DDR2 -533, and 667 DRAM ). Support for up to eight DIMMs per channel. | |
| JEDEC compliant Advanced Memory Buffer for Fully buffered DIMMs. 3.2, and 4.0 Gb/s serial speeds ( DDR2 -533/667 and 800 DRAM ). Support for up to eight DIMMs per channel... | |
| Not recommended for new designs | |
| The 8INT31H800A is an 8-output very high performance HCSL fanout buffer for High Performance Interconnect applications. It can also be used at speeds up to 350MHz. There are four OE... | |
| The 8L3010I is a low skew, 1-to-10 LVCMOS / LVTTL Fanout Buffer. The low impedance LVCMOS / LVTTL outputs are designed to drive 50? series or parallel terminated transmission lines. | |
| The 8L30110 is a low skew, 1-to-10 LVCMOS / LVTTL Fanout Buffer. The low impedance LVCMOS / LVTTL outputs are designed to drive 50Ω series or parallel terminated transmission lines. | |
| The 8L30205 is a low skew, 1-to-5 LVCMOS / LVTTL Fanout Buffer. The low impedance LVCMOS / LVTTL outputs are designed to drive 50Ω series or parallel terminated transmission lines. | |
| The 8L30210 is a low skew, 1-to-10 LVCMOS / LVTTL Fanout Buffer. The low impedance LVCMOS / LVTTL outputs are designed to drive 50Ω series or parallel terminated transmission lines. | |
| The 8P73S674 is a 1.8V LVPECL Clock Divider and Fanout Buffer. The device has been designed for clock signal division and fanout in wireless base station (radio and base band),... | |
| The 8R9306I 2.5V differential clock buffer is a user-selectable differential input to six LVDS outputs. The fanout from a differential input to six LVDS outputs reduces loading on the preceding... | |
| The 8S54011I is a high speed 1-to-2 Differential-to- CML Fanout Buffer. The 8S54011I is optimized for high speed and very low output skew, making it suitable for use in demanding... | |
| The 8S58021I is a high speed 1-to-4 Differential-to- LVPECL / ECL Fanout Buffer. The 8S58021I is optimized for high speed and very low output skew, making it suitable for use... | |
| The 8S58035I is a high speed 2-to-6 Differential-to- LVPECL Fanout Buffer. The 8S58035I is optimized for high speed and very low output skew, making it suitable for use in demanding... | |
| The 8S73034I is a high-speed, differential-to- LVPECL clock divider designed for high-performance telecommunication, computing and networking applications. High clock frequency capability and the differential design make the 8S73034I an ideal... | |
| The 8S89202I is a high speed 1-to-8 Differential-to- LVPECL Clock Divider and is part of the high performance clock solutions from IDT . The 8S89202I is optimized for high speed... | |
| The 8S89831I is a high speed 1-to-4 Differential-to- LVPECL / ECL Fanout Buffer. The 8S89831I is optimized for high speed and very low output skew, making it suitable for use... | |
| The 8S89832I is a high speed 1-to-4 Differential-to- LVDS Fanout Buffer. The 8S89832I is optimized for high speed and very low output skew, making it suitable for use in demanding... | |
| The 8S89833I is a high speed 1-to-4 Differential-to- LVDS Fanout Buffer with Internal Termination. The 8S89833I is optimized for high speed and very low output skew, making it suitable for... | |
| The 8S89834I is a high speed 2-to-4 LVCMOS / LVTTL -to- LVPECL / ECL Clock Multiplexer. The 8S89834I is optimized for high speed and very low output skew, making it... | |
| The 8S89874I is a high speed 1:2 Differential-to- LVPECL Buffer/ Divider. The 8S89874I has a selectable ÷1, ÷2, ÷4, ÷8, ÷16 output divider, which allows the device to be used... | |
| The 8S89875I is a high speed Differential-to- LVDS Buffer/Divider w/Internal Termination. The 8S89875I has selectable ÷1, ÷2, ÷4, ÷8, ÷16 output divider. The clock input has internal termination resistors, allowing... | |
| The 8S89876I is a high speed Differential-to- LVDS Buffer/Divider w/Internal Termination. The 8S89876I has a selectable ÷1, ÷2, ÷4, ÷8, ÷16 output divider. The clock input has internal termination resistors,... | |
| The 8SLVD1204I is a high-performance differential LVDS fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The 8SLVD1204I is characterized... | |
| The 8SLVD1208I is a high-performance differential LVDS fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The 8SLVD1208I is characterized... | |
| The 8SLVD1212 is a high-performance differential LVDS fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The 8SLVD1212 is characterized... | |
| The 8SLVD2102I is a high-performance differential dual 1:2 LVDS fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The 8SLVD2102I... | |
| The 8SLVD2104 is a high-performance differential dual 1:4 LVDS fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The 8SLVD2104... | |
| The 8SLVP1102I is a high-performance differential LVPECL fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The 8SLVP1102I is characterized... | |
| The 8SLVP1204I is a high-performance differential LVPECL fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The 8SLVP1204I is characterized... | |
| The 8SLVP1208I is a high-performance differential LVPECL fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The 8SLVP1208I is characterized... | |
| The 8SLVP1212I is a high-performance, 12 output differential LVPECL fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The 8SLVP1212I... | |
| The 8SLVP2102I is a high-performance differential LVPECL fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The 8SLVP2102I is characterized... | |
| The 8SLVP2104I is a high-performance differential dual LVPECL fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The 8SLVP2104I is... | |
| The 8SLVP2106I is a high-performance differential dual 1:6 LVPECL fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The 8SLVP2106I... | |
| The 8T33FS6111 is a bipolar monolithic differential clock fanout buffer. Designed for most demanding clock distribution systems, the 8T33FS6111 supports various applications that require distribution of precisely aligned differential clock... | |
| The 8T33FS6222 is a bipolar monolithic differential clock fanout buffer. Designed for most demanding clock distribution systems, the 8T33FS6222 supports various applications that require the distribution of precisely aligned differential... | |
| The 8T349316 is a 2.5V differential clock buffer with sixteen LVDS outputs. The fanout from a differential input to the sixteen LVDS outputs reduces loading on the preceding driver and... | |
| The 8T39S10I is a high-performance clock fanout buffer. The input clock can be selected from two differential inputs or one crystal input. The internal oscillator circuit is automatically disabled if... | |
| The 8T39S11A is a high-performance clock fanout buffer. The input clock can be selected from two differential inputs or one crystal input. The internal oscillator circuit is automatically disabled if... | |
| The 8T53S111I is a high-performance differential LVPECL fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The 8T53S111I is characterized... | |
| The 8T73S1802 is a fully integrated clock fanout buffer and frequency divider. The input signal is frequency-divided and then fanned out to one differential LVPECL and one LVCMOS output. Each... | |
| The 8T73S208A -01 is a high-performance differential LVPECL clock divider and fanout buffer. The device is designed for the frequency division and signal fanout of high-frequency, low phase-noise clocks.The 8T73S208A... | |
| The 8T74S208A -01 is a high-performance differential LVDS clock divider and fanout buffer. The device is designed for the frequency division and signal fanout of high-frequency, low phase-noise clocks. The... | |
| The 8T79S818I -08 is a high performance, 1-to-8, differential input to universal output clock divider and fanout buffer. The device is designed for frequency-division and signal fanout of high-frequency clock... | |
| The 8V31012 is a 1-to-12 Differential HCSL Fanout Buffer. The 8V31012 is designed to translate any differential signal levels to differential HCSL output levels. An external reference resistor is used... | |
| The 8V34S204 is a differential 1:4 LVDS fanout buffer with a 2:1 input multiplexer. The device accepts DC to 250MHz clock and data signals and is designed for 1Hz clock/... | |
| The 8V34S208 is a differential 1:8 LVDS fanout buffer with a 2:1 input multiplexer. The device accepts DC to 250MHz clock and data signals and is designed for 1Hz clock... | |
| The 8V54816A is a 16-port, bi-directional cross-point clock switch designed for clock distribution in MicroTCA.4 systems. It features 16 bi-directional M- LVDS ports. Each port can be individually set as... | |
| The 8V74S4622 is a versatile Clock Fanout Buffer/Frequency Divider. The device supports the selection, division and distribution of high-frequency clock signals with very low additive phase noise. The 8V74S4622 uses... | |
| The 8V79S674 is a clock divider and fanout buffer. The device has been designed for clock signal division in wireless base station radio equipment boards. The device is optimized to... | |
| The 9DB102 zero-delay buffer supports PCI Express clocking requirements. The 9DB102 is driven by a differential SRC output pair from an IDT CK409 / CK410 -compliant main clock generator such... | |
| The 9DB106 zero-delay buffer supports PCIe Gen1 and Gen2 clocking requirements. The 9DB106 is driven by a differential SRC output pair from an IDT CK410 / CK505 -compliant main clock... | |
| The 9DB1200 is an Intel DB1200 Differential Buffer Specification device. This buffer provides 12 differential clocks at frequencies ranging from 100 MHz to 400 MHz. The 9DB1200 is driven by... | |
| The 9DB1233 zero-delay buffer supports PCIe Gen3 requirements, while being backwards compatible to PCIe Gen2 and Gen1. The 9DB1233 is driven by a differential SRC output pair from an IDT... | |
| The 9DB1904 is electrically compatible to the Intel DB1900GS Differential Buffer Specification. This buffer provides 19-Output clocks for PCI -Express Gen2 or Intel QPI applications. A differential clock from a... | |
| The 9DB1933 zero-delay buffer supports PCIe Gen3 requirements, while being backwards compatible to PCIe Gen2 and Gen1. The 9DB1933 is driven by a differential SRC output pair from an IDT... | |
| The 9DB233 zero-delay buffer supports PCIe Gen3 requirements, while being backwards compatible to PCIe Gen2 and Gen1. The 9DB233 is driven by a differential SRC output pair from an IDT... | |
| The 9DB306 is a high performance 1-to-6 Differential-to- LVPECL Jitter Attenuator designed for use in PCI Express®™ systems. In some PCI Express® systems, such as those found in desktop PCs,... | |
| The 9DB401 follows the Intel DB400 Differential Buffer Specification v2.0. This buffer provides four PCI -Express SRC clocks. The 9DB401 is driven by a differential input pair from a CK409... | |
| The 9DB403 is compatible the Intel DB400 Differential Buffer Specification v2.0. This buffer provides four PCI -Express SRC clocks. The 9DB403 is driven by a differential input pair from a... | |
| The 9DB423 is compatible with the Intel DB400Q Differential Buffer Specification. This buffer provides 4 PCI -Express SRC or 4 QPI clocks. The 9DB423 is driven by a differential output... | |
| The 9DB433 zero-delay buffer supports PCIe Gen3 requirements, while being backwards compatible to PCIe Gen2 and Gen1. The 9DB433 is driven by a differential SRC output pair from an IDT... | |
| The 9DB633 zero-delay buffer supports PCIe Gen3 requirements, while being backwards compatible to PCIe Gen2 and Gen1. The 9DB633 is driven by a differential SRC output pair from an IDT... | |
| The 9DB801C is a DB800 Version 2.0 Yellow Cover part with PCI Express® support. It can be used in PC or embedded systems to provide outputs that have low cycle-to-cycle... | |
| The 9DB803 is compatible with the Intel DB800v2 Differential Buffer Specification. This buffer provides 8 PCI Express Gen2 clocks. The 9DB803 is driven by a differential output pair from a... | |
| The 9DB823 is compatible with the Intel DB800Q Differential Buffer Specification. This buffer provides 8 PCI -Express SRC or 8 QPI clocks. The 9DB823 is driven by a differential output... | |
| The 9DB833 zero-delay buffer supports PCIe Gen3 requirements, while being backwards compatible to PCIe Gen2 and Gen1. The 9DB833 is driven by a differential SRC output pair from an IDT... | |
| The 9DBL411 is a 4-Output lower power differential buffer. Each output has its own OE # pin. It has a maximum operating frequency of 150 MHz. | |
| The 9DBU0231 is a member of IDT ’s 1.5 V Ultra-Low-Power ( ULP ) PCIe family. The device has 2 output enables for clock management. | |
| The 9DBU0241 is a member of IDT ’s 1.5 V Ultra-Low-Power ( ULP ) PCIe family. It has integrated output terminations providing Zo=100 ohms for direct connection to 100 ohm... | |
| The 9DBU0431 is a member of IDT ’s 1.5 V Ultra-Low-Power ( ULP ) PCIe family. The device has 4 output enables for clock management, and 3 selectable SMBus addresses. | |
| The 9DBU0441 is a member of IDT ’s 1.5 V Ultra-Low-Power ( ULP ) PCIe family. It has integrated output terminations providing Zo=100 ohms for direct connection to 100 ohm... | |
| The 9DBU0531 is a member of IDT ’s 1.5 V Ultra-Low-Power ( ULP ) PCIe family. The device has 5 output enables for clock management, and 3 selectable SMBus addresses. | |
| The 9DBU0541 is a member of IDT ’s 1.5 V Ultra-Low-Power ( ULP ) PCIe family. It has integrated terminations for direct connection to 100 ohm transmission lines. The device... | |
| The 9DBU0631 is a member of IDT ’s 1.5 V Ultra-Low-Power ( ULP ) PCIe family. The device has 6 output enables for clock management and 3 selectable SMBus addresses. | |
| The 9DBU0641 is a member of IDT ’s 1.5 V Ultra-Low-Power ( ULP ) PCIe family. It has integrated output terminations providing Zo=100 ohms for direct connection to 100 ohm... | |
| The 9DBU0731 is a member of IDT ’s 1.5 V Ultra-Low-Power ( ULP ) PCIe family. The device has 7 output enables for clock management, and 3 selectable SMBus addresses. | |
| The 9DBU0741 is a member of IDT ’s 1.5 V Ultra-Low-Power ( ULP ) PCIe family. It has integrated terminations for direct connection to 100 ohm transmission lines. The device... | |
| The 9DBU0831 is a member of IDT ’s 1.5 V Ultra-Low-Power ( ULP ) PCIe family. The device has 8 output enables for clock management and 3 selectable SMBus addresses. | |
| The 9DBU0841 is a member of IDT ’s 1.5 V Ultra-Low-Power ( ULP ) PCIe family. It has integrated output terminations providing Zo=100 ohms for direct connection to 100 ohm... | |
| The 9DBU0931 is a member of IDT ’s 1.5 V Ultra-Low-Power ( ULP ) PCIe family. The device has 5 output enables for clock management, and 3 selectable SMBus addresses. | |
| The 9DBU0941 is a member of IDT ’s 1.5 V Ultra-Low-Power ( ULP ) PCIe family. It has integrated terminations for direct connection to 100 ohm transmission lines. The device... | |
| The 9DBV0231 is a member of IDT 's 1.8V Very-Low-Power ( VLP ) PCIe family. The device has 2 output enables for clock management. | |
| The 9DBV0241 is a member of IDT 's 1.8V Very-Low-Power ( VLP ) PCIe family. The device has 2 output enables for clock management. | |
| The 9DBV0431 is a 4-output very low power buffer for 100 MHz PCIe Gen1, Gen2 and Gen3 applications. It can also be used for 50M or 125M Ethernet Applications via... | |
| The 9DBV0441 is a member of IDT 's SOC -Friendly 1.8V Very-Low-Power ( VLP ) PCIe family. It has integrated output terminations providing Zo=100ohms for direct connection to 100ohm transmission... | |
| The 9DBV0531is a member of IDT ’s Full-Featured PCIe family. The device has 5 output enables for clock management, and 3 selectable SMBus addresses. | |
| The 9DBV0541 is a member of IDT ’s Full-Featured PCIe family. The device has 5 output enables for clock management, and 3 selectable SMBus addresses. It has integrated terminations for... | |
| The 9DBV0631 is a member of IDT ’s 1.8V Very-Low-Power ( VLP ) PCIe family. The device has 6 output enables for clock management and 3 selectable SMBus addresses. | |
| The 9DBV0641 is a member of IDT ’s 1.8 V Very-Low-Power ( VLP ) PCIe family. It has integrated output terminations providing Zo=100 ohms for direct connection to 100 ohm... | |
| The 9DBV0731 is a member of IDT ’s Full-Featured PCIe family. The device has 7 output enables for clock management, and 3 selectable SMBus addresses. | |
| The 9DBV0741 is a member of IDT ’s Full-Featured PCIe family. The device has 7 output enables for clock management, and 3 selectable SMBus addresses. It has integrated terminations for... | |
| The 9DBV0831 is an 8-output very low power buffer for 100MHz PCIe Gen1, Gen2 and Gen3 applications. It can also be used for 50M or 125M Ethernet Applications via software... | |
| The 9DBV0841 is a 1.8V member of IDT 's full featured PCIe family. It has integrated output terminations providing Zo=100Ω for direct connection for 100Ω transmission lines. The device has... | |
| The 9DBV0931 is a member of IDT ’s Full-Featured PCIe family. The device has 9 output enables for clock management, and 3 selectable SMBus addresses. | |
| The 9DBV0941 is a member of IDT ’s Full-Featured PCIe family. The device has 9 output enables for clock management, and 3 selectable SMBus addresses. It has integrated terminations for... | |
| The 9EX21531 provides 15 output clocks for PCIe Gen1/ 2/3 applications. The 9EX21531 has 4 selectable SMBus addresses, and dedicated CKPWRGD / PD # and VDDA pins for easy board... | |
| The 9EX21801 provides 18 output clocks for PCIe Gen2 (100MHz) or QPI (133MHz) applications. The 9EX21801 has 4 selectable SMBus addresses, and dedicated CKPWRGD / PD # and VDDA pins... | |
| The 9ZX21200 is a small-footprint 12-output differential buffer that meets all the performance requirements of the Intel DB1200Z specification. The 9ZX21200 is backwards compatible to PCIe Gen1 and Gen2 applications. | |
| The 9ZX21501 is an Intel DB1900Z -compatible Differential Buffer suitable for PCIExpress Gen3 or QPI applications. The part is backwards compatible to PCIe Gen1 and Gen2. A fixed external feedback... | |
| The 9ZX21901B is a version of the Intel DB1900Z Differential Buffer with an ajdustable external feedback path allowing the user to eliminate trace delays from their design. It is suitable... | |
| The 9ZX21901C is an Intel DB1900Z Differential Buffer suitable for PCI Express Gen1-2-3 or QPI applications. The 9ZX21901C has a fixed external feedback path. See the 9ZX21901B for an adjustable... | |
| The 9ZXL0651 is a low-power 6-output differential buffer that meets all the performance requirements of the Intel DB1200Z specification. It consumes 50% less power than standard HCSL devices and has... | |
| The 9ZXL0831 is a low-power 8-output differential buffer that meets all the performance requirements of the Intel DB800ZL specification. It is suitable for PCI -Express Gen1/2/3 or QPI / UPI... | |
| The 9ZXL1230 is a small-footprint, low power 12-output differential buffer that meets all the performance requirements of the Intel DB1200ZL specification. It is pin-compatible to the 9ZX21200 , while consuming... | |
| The 9ZXL1231 meets the demanding requirements of the Intel DB1200ZL specification, including the critical low-drift requirements of Intel CPUs. | |
| The 9ZXL1251 meets the demanding requirements of the Intel DB1200ZL specification, including the critical low-drift requirements of Intel CPUs. It is pin compatible to the 9ZXL1231 and integrates 24 termination... | |
| The 9ZXL1530 is a low-power version of the 9ZX21501 . It has 15 low-power HCSL -compatible outputs and meets all the performance requirements of the Intel DB1900Z specification, while reducing... | |
| The 9ZXL1550 is a DB1900Z derivative buffer utilizing Low-Power HCSL ( LP - HCSL ) outputs to increase edge rates on long traces, reduce board space, and reduce power consumption... | |
| The 9ZXL1930 is a low-power version of the 9ZX21901 . It has 19 low-power HCSL -compatible outputs and meets all the performance requirements of the Intel DB1900Z specification, while reducing... | |
| The 9ZXL1950 is a DB1900Z derivative buffer utilizing Low-Power HCSL ( LP - HCSL ) outputs to increase edge rates on long traces, reduce board space, and reduce power consumption... | |
| The ASI4U is a next-generation CMOS integrated circuit for AS -i networks. This low-level field bus AS i (Actuator Sensor Interface) was designed for easy, safe, and cost-effective interconnection of... | |
| The CA91C142D (Universe II ) is the industry’s leading high-performance PCI to VME interconnect. It is fully compliant with the VME64 bus standard, and is tailored to support advanced PCI... | |
| The CA91L862A (QSpan II ) is a PCI -to-Host processor bridge for the Freescale PowerQUICC ( MPC860 /850/821), the QUICC ( MC68360 ), and the MC68040 processors. The QSpan II... | |
| The IDT 8P34S1102I is a high-performance differential LVDS fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The 8P34S1102I is... | |
| The IDT 8P34S1106i is a high-performance differential LVDS fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The 8P34S1106i is... | |
| The IDT 8P34S1204i is a high-performance differential LVDS fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The 8P34S1204i is... | |
| The IDT 8P34S1208i is a high-performance differential LVDS fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The 8P34S1208i is... | |
| The IDT 8P34S1212I is a high-performance differential LVDS fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The 8P34S1212I is... | |
| The IDT8SLVD1204 -33I is a high-performance differential LVDS fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The IDT8SLVD1204 -33I... | |
| The IDT8SLVD1208 -33I is a high-performance differential LVDS fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The IDT8SLVD1208 -33I... | |
| The IDT8SLVP1104I is a high-performance differential LVPECL fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The IDT8SLVP1104I is characterized... | |
| The IDT8SLVP2108I is a high-performance differential dual 1:8 LVPECL fanout buffer. The device is designed for the fanout of high-frequency, very low additive phase-noise clock and data signals. The IDT8SLVP2108I... | |
| The IDT8T33FS314I is a low skew 1-to-4 Differential Fanout Buffer, designed with clock distribution in mind, accepting two clock sources into an input MUX . The MUX is controlled by... | |
| The IDT8T79S828 -08I is a high performance, 1-to-8, differential input to universal output clock divider and fanout buffer. The device is designed for frequency-division and signal fanout of high-frequency clock... | |
| The IDT8T79S838 -08I is a high performance, 1-to-8, differential input to universal output fanout buffer. The device is designed for signal fanout of high-frequency clock signals in applications requiring output... | |
| The IDT9EX21501 provides 15 output clocks for PCIe Gen2 (100MHz) or QPI (133MHz) applications. The 9EX21501 has 4 selectable SMBus addresses, and dedicated CKPWRGD / PD # and VDDA pins... | |
| The IDT9ZX21201 is a 12-output DB1200Z suitable for PCI Express® Gen3 or QPI applications. The part is backwards compatible to PCIe Gen1 and Gen2. A fixed external feedback maintains low... |
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