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    KLT20

    Abstract: k1648 klt22 KEL32 MC100 HEP64 KLT21 LP17 KEP32 HEP139
    Text: AND8002/D ECLinPS, ECLinPS Lite, ECLinPS Plus, ECLinPS MAX, and GigaComm Marking and Ordering Information Guide http://onsemi.com APPLICATION NOTE Prepared by: Paul Shockman ON Semiconductor HFPD Applications Engineer Introduction This application note describes the device markings and


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    PDF AND8002/D KLT20 k1648 klt22 KEL32 MC100 HEP64 KLT21 LP17 KEP32 HEP139

    HEP64

    Abstract: MC100EP16VA MC10EP16VA
    Text: MC10EP16VA, MC100EP16VA 3.3V / 5V ECL Differential Receiver/Driver with High Gain Description Features • • • • 270 ps Typical Propagation Delay Gain > 20 20 mV Minimum Input Voltage Swing Maximum Frequency > 3 GHz Typical PECL Mode Operating Range: VCC = 3.0 V to 5.5 V


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    PDF MC10EP16VA, MC100EP16VA HEP64 KEP64 506AA MC10s MC10EP16VA/D HEP64 MC100EP16VA MC10EP16VA

    motorola HEP cross reference

    Abstract: EPT 4045 KPT23 motorola HEP 320 cross reference vef 202 manual KEP52 MC10EP016 HEP 801 hep51 HEP64
    Text: BR1513/D Rev. 2, Apr-2001 ECLinPS Plus Device Data ECLinPS Plus Device Data Advanced ECL in Picoseconds BR1513/D Rev. 2, Apr–2001  SCILLC, 2001 Previous Edition  2000 “All Rights Reserved” ECLinPS, ECLinPS Lite, and ECLinPS Plus are trademarks of Semiconductor Components Industries, LLC.


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    PDF BR1513/D Apr-2001 r14525 DLD601 motorola HEP cross reference EPT 4045 KPT23 motorola HEP 320 cross reference vef 202 manual KEP52 MC10EP016 HEP 801 hep51 HEP64

    3055 transistor

    Abstract: HEP64 MC100EP16VA MC10EP16VA
    Text: MC10EP16VA, MC100EP16VA 3.3V / 5V ECL Differential Receiver/Driver with High Gain Description Features • • • • 270 ps Typical Propagation Delay Gain > 20 20 mV Minimum Input Voltage Swing Maximum Frequency > 3 GHz Typical PECL Mode Operating Range: VCC = 3.0 V to 5.5 V


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    PDF MC10EP16VA, MC100EP16VA HEP64 KEP64 506AA MC10EP16VA/D 3055 transistor HEP64 MC100EP16VA MC10EP16VA

    KEP64

    Abstract: HEP64 marking code HEP64 bd 3055 e 3055 t MC100EP16VA MC10EP16VA
    Text: MC10EP16VA, MC100EP16VA 3.3V / 5VĄECL Differential Receiver/Driver with High Gain The EP16VA is a world–class differential receiver/driver. The device is functionally equivalent to the EP16 and LVEP16 devices but with high gain output. QHG and QHG outputs have a DC gain several


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    PDF MC10EP16VA, MC100EP16VA EP16VA LVEP16 r14525 MC10EP16VA/D KEP64 HEP64 marking code HEP64 bd 3055 e 3055 t MC100EP16VA MC10EP16VA

    KEP64

    Abstract: HEP64 MC100EP16VA MC10EP16VA
    Text: MC10EP16VA, MC100EP16VA 3.3V / 5VĄECL Differential Receiver/Driver with High Gain The EP16VA is a world–class differential receiver/driver. The device is functionally equivalent to the EP16 and LVEP16 devices but with high gain output. QHG and QHG outputs have a DC gain several


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    PDF MC10EP16VA, MC100EP16VA EP16VA LVEP16 r14525 MC10EP16VA/D KEP64 HEP64 MC100EP16VA MC10EP16VA

    HEP64

    Abstract: m 1305 MC100EP16VA MC10EP16VA
    Text: MC10EP16VA, MC100EP16VA 3.3V / 5V ECL Differential Receiver/Driver with High Gain Description Features • • • • 270 ps Typical Propagation Delay Gain > 20 20 mV Minimum Input Voltage Swing Maximum Frequency > 3 GHz Typical PECL Mode Operating Range: VCC = 3.0 V to 5.5 V


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    PDF MC10EP16VA, MC100EP16VA HEP64 KEP64 506AA MC10EP16VA/D HEP64 m 1305 MC100EP16VA MC10EP16VA

    A1870

    Abstract: marking a1870 A1870 transistor
    Text: MC10EP16VA, MC100EP16VA 3.3V / 5V ECL Differential Receiver/Driver with High Gain Description The EP16VA is a world−class differential receiver/driver. The device is functionally equivalent to the EP16 and LVEP16 devices but with high gain output. QHG and QHG outputs have a DC gain several


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    PDF MC10EP16VA, MC100EP16VA EP16VA LVEP16 MC10EP16VA/D A1870 marking a1870 A1870 transistor

    Untitled

    Abstract: No abstract text available
    Text: MC10EP16VA, MC100EP16VA 3.3V / 5V ECL Differential Receiver/Driver with High Gain Description The EP16VA is a world−class differential receiver/driver. The device is functionally equivalent to the EP16 and LVEP16 devices but with high gain output. QHG and QHG outputs have a DC gain several


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    PDF MC10EP16VA, MC100EP16VA EP16VA LVEP16 MC10EP16VA/D

    HEL16

    Abstract: DEVICE MARKING CODE table onsemi marking marking code onsemi marking code onsemi Diode kel33 on semiconductor traceability marking soic HEL32 HEL12 HEL31 HEL05
    Text: AND8002/D ECLinPS, ECLinPS Lite, ECLinPS Plus, ECLinPS MAX, and GigaComm Marking and Ordering Information Guide http://onsemi.com APPLICATION NOTE Prepared by: Paul Shockman ON Semiconductor HFPD Applications Engineer Introduction This application note describes the device markings and


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    PDF AND8002/D HEL16 DEVICE MARKING CODE table onsemi marking marking code onsemi marking code onsemi Diode kel33 on semiconductor traceability marking soic HEL32 HEL12 HEL31 HEL05

    KEP64

    Abstract: No abstract text available
    Text: MC10EP16VA, MC100EP16VA 3.3V / 5VĄECL Differential Receiver/Driver with High Gain The EP16VA is a world–class differential receiver/driver. The device is functionally equivalent to the EP16 and LVEP16 devices but with high gain output. QHG and QHG outputs have a DC gain several


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    PDF MC10EP16VA, MC100EP16VA EP16VA LVEP16 r14525 MC10EP16VA/D KEP64

    KEP64

    Abstract: HK5N
    Text: MC10EP16VA, MC100EP16VA 3.3V / 5V ECL Differential Receiver/Driver with High Gain Description Features • • • • 270 ps Typical Propagation Delay Gain > 20 20 mV Minimum Input Voltage Swing Maximum Frequency > 3 GHz Typical PECL Mode Operating Range: VCC = 3.0 V to 5.5 V


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    PDF MC10EP16VA, MC100EP16VA EP16VA LVEP16 MC10EP16VA/D KEP64 HK5N