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NTSC/PAL Clock Source

Description The MK1410 and MK1411 are the ideal way to generate clocks for NTSC/PAL video encoders and decoders. Stored in the devices are two or four popular frequencies for NTSC and PAL. In an 8 pin SOIC, the chips can save component count, board space, and cost over surface mount crystals and

NTSC/PAL Clock Source

Description The MK1410 and MK1411 are the ideal way to generate clocks for NTSC/PAL video encoders and decoders. Stored in the devices are two or four popular frequencies for NTSC and PAL. In an 8 pin SOIC, the chips can save component count, board space, and cost over surface mount crystals and

NTSC/PAL Clock Source

Description The MK1410 and MK1411 are the ideal way to generate clocks for NTSC/PAL video encoders and decoders. Stored in the devices are two or four popular frequencies for NTSC and PAL. In an 8 pin SOIC, the chips can save component count, board space, and cost over surface mount crystals and

NTSC/PAL Clock Source

Description The MK1410 and MK1411 are the ideal way to generate clocks for NTSC/PAL video encoders and decoders. Stored in the devices are two or four popular frequencies for NTSC and PAL. In an 8 pin SOIC, the chips can save component count, board space, and cost over surface mount crystals and

NTSC/PAL Clock Source

Description The MK1410 and MK1411 are the ideal way to generate clocks for NTSC/PAL video encoders and decoders. Stored in the devices are two or four popular frequencies for NTSC and PAL. In an 8 pin SOIC, the chips can save component count, board space, and cost over surface mount crystals and

MPEG Audio Clock Synthesizer

Description The MK1412 is the ideal way to generate clocks for MPEG audio devices in computers. The device uses ICS/MicroClock’s proprietary mixture of analog and digital Phase-Locked Loop (PLL) technology to synthesize one of eight frequencies (four on each output) from the 14.31818 MHz referenc

MPEG Audio Clock Synthesizer

Description The MK1412 is the ideal way to generate clocks for MPEG audio devices in computers. The device uses ICS/MicroClock’s proprietary mixture of analog and digital Phase-Locked Loop (PLL) technology to synthesize one of eight frequencies (four on each output) from the 14.31818 MHz referenc

MPEG Audio Clock Synthesizer

Description The MK1412 is the ideal way to generate clocks for MPEG audio devices in computers. The device uses ICS/MicroClock’s proprietary mixture of analog and digital Phase-Locked Loop (PLL) technology to synthesize one of eight frequencies (four on each output) from the 14.31818 MHz referenc

MPEG Audio Clock Synthesizer

Description The MK1412 is the ideal way to generate clocks for MPEG audio devices in computers. The device uses ICS/MicroClock’s proprietary mixture of analog and digital Phase-Locked Loop (PLL) technology to synthesize one of eight frequencies (four on each output) from the 14.31818 MHz referenc

MPEG Audio Clock Synthesizer

Description The MK1412 is the ideal way to generate clocks for MPEG audio devices in computers. The device uses ICS/MicroClock’s proprietary mixture of analog and digital Phase-Locked Loop (PLL) technology to synthesize one of eight frequencies (four on each output) from the 14.31818 MHz referenc

MPEG Audio Clock Synthesizer

Description The MK1413 is the ideal way to generate clocks for MPEG audio devices in computers. The device uses MicroClock’s proprietary mixture of analog and digital Phase-Locked Loop (PLL) technology to synthesize one of four frequencies from the 14.31818 MHz reference. In an 8 pin SOIC, the MK

MPEG AUDIO CLOCK SOURCE

Features ? Packaged in 8-pin SOIC ? Pb (lead) free package ? Input crystal or clock frequency of 14.31818 MHz ? Provides master MPEG clocks for 32 kHz, 44.1 kHz, and 48 kHz sampling rates ? Output clock frequencies of 8.192 MHz, 11.2896 MHz, 12.288 MHz, and 16.9344 MHz ? Low jitter ? 25 m

MPEG Audio Clock Synthesizer

Description The MK1413 is the ideal way to generate clocks for MPEG audio devices in computers. The device uses MicroClock’s proprietary mixture of analog and digital Phase-Locked Loop (PLL) technology to synthesize one of four frequencies from the 14.31818 MHz reference. In an 8 pin SOIC, the MK

MPEG AUDIO CLOCK SOURCE

Features ? Packaged in 8-pin SOIC ? Pb (lead) free package ? Input crystal or clock frequency of 14.31818 MHz ? Provides master MPEG clocks for 32 kHz, 44.1 kHz, and 48 kHz sampling rates ? Output clock frequencies of 8.192 MHz, 11.2896 MHz, 12.288 MHz, and 16.9344 MHz ? Low jitter ? 25 m

MPEG AUDIO CLOCK SOURCE

Features ? Packaged in 8-pin SOIC ? Pb (lead) free package ? Input crystal or clock frequency of 14.31818 MHz ? Provides master MPEG clocks for 32 kHz, 44.1 kHz, and 48 kHz sampling rates ? Output clock frequencies of 8.192 MHz, 11.2896 MHz, 12.288 MHz, and 16.9344 MHz ? Low jitter ? 25 m

MPEG Audio Clock Synthesizer

Description The MK1413 is the ideal way to generate clocks for MPEG audio devices in computers. The device uses MicroClock’s proprietary mixture of analog and digital Phase-Locked Loop (PLL) technology to synthesize one of four frequencies from the 14.31818 MHz reference. In an 8 pin SOIC, the MK

OPL3, OPL4 Codec Clock Source

Description The MK1418 and MK1420 are the ideal way to generate clocks for new sound cards. The MK1420 provides clocks for Analog Devices’ AD1848, Crystal Semiconductor’s CS4231, and Yamaha’s OPL3L, OPL3LS, and OPL4. The MK1420 uses either a 14.318 MHz crystal, or a 14.318 MHz bus clock input to

OPL3, OPL4 Codec Clock Source

Description The MK1418 and MK1420 are the ideal way to generate clocks for new sound cards. The MK1420 provides clocks for Analog Devices’ AD1848, Crystal Semiconductor’s CS4231, and Yamaha’s OPL3L, OPL3LS, and OPL4. The MK1420 uses either a 14.318 MHz crystal, or a 14.318 MHz bus clock input to

OPL3, OPL4 Codec Clock Source

Description The MK1418 and MK1420 are the ideal way to generate clocks for new sound cards. The MK1420 provides clocks for Analog Devices’ AD1848, Crystal Semiconductor’s CS4231, and Yamaha’s OPL3L, OPL3LS, and OPL4. The MK1420 uses either a 14.318 MHz crystal, or a 14.318 MHz bus clock input to

OPL3, OPL4 Codec Clock Source

Description The MK1418 and MK1420 are the ideal way to generate clocks for new sound cards. The MK1420 provides clocks for Analog Devices’ AD1848, Crystal Semiconductor’s CS4231, and Yamaha’s OPL3L, OPL3LS, and OPL4. The MK1420 uses either a 14.318 MHz crystal, or a 14.318 MHz bus clock input to

OPL3, OPL4 Codec Clock Source

Description The MK1418 and MK1420 are the ideal way to generate clocks for new sound cards. The MK1420 provides clocks for Analog Devices’ AD1848, Crystal Semiconductor’s CS4231, and Yamaha’s OPL3L, OPL3LS, and OPL4. The MK1420 uses either a 14.318 MHz crystal, or a 14.318 MHz bus clock input to

OPL3/4Codec Portable Clock Source

Description The MK1422 is the ideal way to generate clocks for sound in portable computers. It provides clocks for Analog Devices’ or Crystal Semiconductor’s stereo codecs, and Yamaha’s OPL3L, OPL3LS, and OPL4. The MK1422 uses either a 14.318 MHz crystal, or a 14.318 MHz bus clock input to synthe

OPL3/4Codec Portable Clock Source

Description The MK1422 is the ideal way to generate clocks for sound in portable computers. It provides clocks for Analog Devices’ or Crystal Semiconductor’s stereo codecs, and Yamaha’s OPL3L, OPL3LS, and OPL4. The MK1422 uses either a 14.318 MHz crystal, or a 14.318 MHz bus clock input to synthe

OPL3/4Codec Portable Clock Source

Description The MK1422 is the ideal way to generate clocks for sound in portable computers. It provides clocks for Analog Devices’ or Crystal Semiconductor’s stereo codecs, and Yamaha’s OPL3L, OPL3LS, and OPL4. The MK1422 uses either a 14.318 MHz crystal, or a 14.318 MHz bus clock input to synthe

Green PC and Local Bus Clock Source

Description The MK1432 and MK1434 are low cost, high performance triple clock synthesizers for green PC and local bus desktop and notebook applications. Using analog Phase-Locked Loop (PLL) techniques, the devices accept a 14.318 MHz crystal input to produce multiple output clocks up to 100 MHz.

Green PC and Local Bus Clock Source

Description The MK1432 and MK1434 are low cost, high performance triple clock synthesizers for green PC and local bus desktop and notebook applications. Using analog Phase-Locked Loop (PLL) techniques, the devices accept a 14.318 MHz crystal input to produce multiple output clocks up to 100 MHz.

Green PC and Local Bus Clock Source

Description The MK1432 and MK1434 are low cost, high performance triple clock synthesizers for green PC and local bus desktop and notebook applications. Using analog Phase-Locked Loop (PLL) techniques, the devices accept a 14.318 MHz crystal input to produce multiple output clocks up to 100 MHz.

Green PC and Local Bus Clock Source

Description The MK1432 and MK1434 are low cost, high performance triple clock synthesizers for green PC and local bus desktop and notebook applications. Using analog Phase-Locked Loop (PLL) techniques, the devices accept a 14.318 MHz crystal input to produce multiple output clocks up to 100 MHz.

Green PC and Local Bus Clock Source

Description The MK1432 and MK1434 are low cost, high performance triple clock synthesizers for green PC and local bus desktop and notebook applications. Using analog Phase-Locked Loop (PLL) techniques, the devices accept a 14.318 MHz crystal input to produce multiple output clocks up to 100 MHz.

SCSI and Ethernet Clock Source

Description The MK1442/3 are the ideal way to generate clocks for desktop computer motherboards and LAN workstations. Using analog Phase-Locked Loop (PLL) techniques, the devices accept a 14.318 MHz crystal input to produce multiple output clocks up to 100 MHz. They provide 2XCPU, CPU, floppy con

SCSI and Ethernet Clock Source

Description The MK1442/3 are the ideal way to generate clocks for desktop computer motherboards and LAN workstations. Using analog Phase-Locked Loop (PLL) techniques, the devices accept a 14.318 MHz crystal input to produce multiple output clocks up to 100 MHz. They provide 2XCPU, CPU, floppy con

SCSI and Ethernet Clock Source

Description The MK1442/3 are the ideal way to generate clocks for desktop computer motherboards and LAN workstations. Using analog Phase-Locked Loop (PLL) techniques, the devices accept a 14.318 MHz crystal input to produce multiple output clocks up to 100 MHz. They provide 2XCPU, CPU, floppy con

SCSI and Ethernet Clock Source

Description The MK1442/3 are the ideal way to generate clocks for desktop computer motherboards and LAN workstations. Using analog Phase-Locked Loop (PLL) techniques, the devices accept a 14.318 MHz crystal input to produce multiple output clocks up to 100 MHz. They provide 2XCPU, CPU, floppy con

SCSI and Ethernet Clock Source

Description The MK1442/3 are the ideal way to generate clocks for desktop computer motherboards and LAN workstations. Using analog Phase-Locked Loop (PLL) techniques, the devices accept a 14.318 MHz crystal input to produce multiple output clocks up to 100 MHz. They provide 2XCPU, CPU, floppy con

SCSI and Ethernet Clock Source

Description The MK1442/3 are the ideal way to generate clocks for desktop computer motherboards and LAN workstations. Using analog Phase-Locked Loop (PLL) techniques, the devices accept a 14.318 MHz crystal input to produce multiple output clocks up to 100 MHz. They provide 2XCPU, CPU, floppy con

SCSI and Ethernet Clock Source

Description The MK1442/3 are the ideal way to generate clocks for desktop computer motherboards and LAN workstations. Using analog Phase-Locked Loop (PLL) techniques, the devices accept a 14.318 MHz crystal input to produce multiple output clocks up to 100 MHz. They provide 2XCPU, CPU, floppy con

Sound/SCSIFast Ethernet Clock

Description The MK1449B is the most cost effective way to generate high quality, high frequency clock outputs for SCSI plus Fast Ethernet devices, or AC97 sound chips. Using Phase-Locked-Loop (PLL) techniques, the device uses a standard fundamental mode, inexpensive 14.31818 MHz crystal or clock

Sound/SCSIFast Ethernet Clock

Description The MK1449B is the most cost effective way to generate high quality, high frequency clock outputs for SCSI plus Fast Ethernet devices, or AC97 sound chips. Using Phase-Locked-Loop (PLL) techniques, the device uses a standard fundamental mode, inexpensive 14.31818 MHz crystal or clock

Sound/SCSIFast Ethernet Clock

Description The MK1449B is the most cost effective way to generate high quality, high frequency clock outputs for SCSI plus Fast Ethernet devices, or AC97 sound chips. Using Phase-Locked-Loop (PLL) techniques, the device uses a standard fundamental mode, inexpensive 14.31818 MHz crystal or clock

Sound/SCSIFast Ethernet Clock

Description The MK1449B is the most cost effective way to generate high quality, high frequency clock outputs for SCSI plus Fast Ethernet devices, or AC97 sound chips. Using Phase-Locked-Loop (PLL) techniques, the device uses a standard fundamental mode, inexpensive 14.31818 MHz crystal or clock

Sound/SCSIFast Ethernet Clock

Description The MK1449B is the most cost effective way to generate high quality, high frequency clock outputs for SCSI plus Fast Ethernet devices, or AC97 sound chips. Using Phase-Locked-Loop (PLL) techniques, the device uses a standard fundamental mode, inexpensive 14.31818 MHz crystal or clock

SCSI and Ethernet Clock Source

Description The MK1442/3 are the ideal way to generate clocks for desktop computer motherboards and LAN workstations. Using analog Phase-Locked Loop (PLL) techniques, the devices accept a 14.318 MHz crystal input to produce multiple output clocks up to 100 MHz. They provide 2XCPU, CPU, floppy con

AMD Geode??Clock Source

Description The MK1491-06 is a low-cost, low-jitter, high-performance clock synthesizer for AMD’s Geode-based computer and portable appliance applications. Using patented analog Phased-Locked Loop (PLL) techniques, the device accepts a 14.318 MHz crystal input to produce multiple output clocks.

CS5530 Geode??Clock Source

Description The MK1491-06 is a low-cost, low-jitter, high-performance clock synthesizer for AMD’s Geode-based computer and portable appliance applications. Using patented analog Phased-Locked Loop (PLL) techniques, the device accepts a 14.318 MHz crystal input to produce multiple output clocks.

AMD GEODE? CLOCK SOURCE

Features ? Packaged in 28-pin SOIC or in 28-pin SSOP ? Pb (lead) free, RoHS compliant ? Provides all critical timing for the AMD Geode companion chip ? Four PCI clocks ? Selectable PCIF on up to 2 outputs ? Early PCI clock selectability ? Up to 4 Reference clocks ? 48 MHz USB and 24MHz SI

CS5530 Geode??Clock Source

Description The MK1491-06 is a low-cost, low-jitter, high-performance clock synthesizer for AMD’s Geode-based computer and portable appliance applications. Using patented analog Phased-Locked Loop (PLL) techniques, the device accepts a 14.318 MHz crystal input to produce multiple output clocks.

AMD Geode??Clock Source

Description The MK1491-06 is a low-cost, low-jitter, high-performance clock synthesizer for AMD’s Geode-based computer and portable appliance applications. Using patented analog Phased-Locked Loop (PLL) techniques, the device accepts a 14.318 MHz crystal input to produce multiple output clocks.

AMD GEODE? CLOCK SOURCE

Features ? Packaged in 28-pin SOIC or in 28-pin SSOP ? Pb (lead) free, RoHS compliant ? Provides all critical timing for the AMD Geode companion chip ? Four PCI clocks ? Selectable PCIF on up to 2 outputs ? Early PCI clock selectability ? Up to 4 Reference clocks ? 48 MHz USB and 24MHz SI

AMD GEODE? CLOCK SOURCE

Features ? Packaged in 28-pin SOIC or in 28-pin SSOP ? Pb (lead) free, RoHS compliant ? Provides all critical timing for the AMD Geode companion chip ? Four PCI clocks ? Selectable PCIF on up to 2 outputs ? Early PCI clock selectability ? Up to 4 Reference clocks ? 48 MHz USB and 24MHz SI

AMD Geode??Clock Source

Description The MK1491-06 is a low-cost, low-jitter, high-performance clock synthesizer for AMD’s Geode-based computer and portable appliance applications. Using patented analog Phased-Locked Loop (PLL) techniques, the device accepts a 14.318 MHz crystal input to produce multiple output clocks.

AMD GEODE? CLOCK SOURCE

Features ? Packaged in 28-pin SOIC or in 28-pin SSOP ? Pb (lead) free, RoHS compliant ? Provides all critical timing for the AMD Geode companion chip ? Four PCI clocks ? Selectable PCIF on up to 2 outputs ? Early PCI clock selectability ? Up to 4 Reference clocks ? 48 MHz USB and 24MHz SI

AMD Geode??Clock Source

Description The MK1491-06 is a low-cost, low-jitter, high-performance clock synthesizer for AMD’s Geode-based computer and portable appliance applications. Using patented analog Phased-Locked Loop (PLL) techniques, the device accepts a 14.318 MHz crystal input to produce multiple output clocks.

AMD GEODE? CLOCK SOURCE

Features ? Packaged in 28-pin SOIC or in 28-pin SSOP ? Pb (lead) free, RoHS compliant ? Provides all critical timing for the AMD Geode companion chip ? Four PCI clocks ? Selectable PCIF on up to 2 outputs ? Early PCI clock selectability ? Up to 4 Reference clocks ? 48 MHz USB and 24MHz SI

CS5530 Geode??Clock Source

Description The MK1491-06 is a low-cost, low-jitter, high-performance clock synthesizer for AMD’s Geode-based computer and portable appliance applications. Using patented analog Phased-Locked Loop (PLL) techniques, the device accepts a 14.318 MHz crystal input to produce multiple output clocks.

AMD Geode??Clock Source

Description The MK1491-06 is a low-cost, low-jitter, high-performance clock synthesizer for AMD’s Geode-based computer and portable appliance applications. Using patented analog Phased-Locked Loop (PLL) techniques, the device accepts a 14.318 MHz crystal input to produce multiple output clocks.

CS5530 Geode??Clock Source

Description The MK1491-06 is a low-cost, low-jitter, high-performance clock synthesizer for AMD’s Geode-based computer and portable appliance applications. Using patented analog Phased-Locked Loop (PLL) techniques, the device accepts a 14.318 MHz crystal input to produce multiple output clocks.

AMD Geode??Clock Source

Description The MK1491-06 is a low-cost, low-jitter, high-performance clock synthesizer for AMD’s Geode-based computer and portable appliance applications. Using patented analog Phased-Locked Loop (PLL) techniques, the device accepts a 14.318 MHz crystal input to produce multiple output clocks.

AMD Geode??Clock Source

Description The MK1491-06 is a low-cost, low-jitter, high-performance clock synthesizer for AMD’s Geode-based computer and portable appliance applications. Using patented analog Phased-Locked Loop (PLL) techniques, the device accepts a 14.318 MHz crystal input to produce multiple output clocks.

AMD GEODE? CLOCK SOURCE

Features ? Packaged in 28-pin SOIC or in 28-pin SSOP ? Pb (lead) free, RoHS compliant ? Provides all critical timing for the AMD Geode companion chip ? Four PCI clocks ? Selectable PCIF on up to 2 outputs ? Early PCI clock selectability ? Up to 4 Reference clocks ? 48 MHz USB and 24MHz SI

AMD Geode??Clock Source

Description The MK1491-06 is a low-cost, low-jitter, high-performance clock synthesizer for AMD’s Geode-based computer and portable appliance applications. Using patented analog Phased-Locked Loop (PLL) techniques, the device accepts a 14.318 MHz crystal input to produce multiple output clocks.