PART |
Description |
Maker |
GDSSF2301B-15 |
TYPICAL ELECTRICAL AND THERMAL CHARACTERISTICS High Power and current handing capability
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GOOD-ARK Electronics
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AN649 |
HFTA-04.0: Optical/Electrical Conversion in SDH/SONET Fiber Optic Systems
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Maxim Integrated Products, Inc. MAXIM[Maxim Integrated Products]
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TX1.25GBIT/S |
Parallel Optical Links (PAROLI) - PAROLI?2 Tx AC, 1.25 Gbit/s, multistandard electrical interface
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Infineon
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KT872N15 KT872N55 KT872P51 KT872P55 KT872T55 KT872 |
Slotted optical switch phototransistor output. Opaque polysulpone discrete shells with .02 inches SQ, leads. Electrical parameter C lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .050 inches Slotted optical switch phototransistor output. Opaque polysulpone discrete shells with .02 inches SQ, leads. Electrical parameter C lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .050 inches Slotted optical switch phototransistor output. Opaque polysulpone discrete shells with .02 inches SQ, leads. Electrical parameter C lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .010 inches Slotted optical switch phototransistor output. IR transmissive polysulpone discrete shells with .02inches. Electrical parameter A lead spacing .320 inches. Aperture width in front of sensor .010 inches. Aperture width in front of emitter . Slotted optical switch phototransistor output. IR transmissive polysulpone discrete shells with .02inches SQ, leads. Electrical parameter A lead spacing .320inches. Aperture in front of sensor .050inches. Aperture width in front of emitter Slotted optical switch phototransistor output. IR transmissive polysulpone discrete shells with .02inches SQ, leads. Electrical parameter B lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .01 Slotted optical switch phototransistor output. IR transmissive polysulpone discrete shells with .02inches SQ, leads. Electrical parameter B lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .05 Slotted optical switch phototransistor output. IR transmissive polysulpone discrete shells with .02inches SQ, leads. Electrical parameter C lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .05 Slotted optical switch phototransistor output. IR transmissive polysulpone discrete shells with .02inches SQ, leads. Electrical parameter B lead spacing .320inches. Aperture in front of sensor .050inches. Aperture in front of emitter .050i Slotted optical switch phototransistor output. IR transmissive polysulpone discrete shells with .02inches SQ, leads. Electrical parameter A lead spacing .320inches. Aperture width in front of sensor .050inches. Aperture in front of emitter Slotted optical switch phototransistor output. IR transmissive polysulpone discrete shells with .02inches SQ, leads. Electrical parameter B lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .0 Slotted optical switch phototransistor output. IR transmissive polysulpone discrete shells with .02inches SQ, leads. Electrical parameter B lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .05 Slotted optical switch phototransistor output. Opaque polysulpone discrete shells with .02 inches SQ, leads. Electrical parameter A lead spacing .220 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .050 inches Slotted optical switch phototransistor output. IR transmissive polysulpone discrete shells with .02inches SQ, leads. Electrical parameter A lead spacing .220 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .05 Slotted optical switch phototransistor output. Opaque polysulpone discrete shells with .02 inches SQ, leads. Electrical parameter B lead spacing .220 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .050 inches Slotted optical switch phototransistor output. Opaque polysulpone discrete shells with .02 inches SQ, leads. Electrical parameter B lead spacing .220 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .010 inches Slotted optical switch phototransistor output. Opaque polysulpone discrete shells with .02 inches SQ, leads. Electrical parameter B lead spacing .220 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .050 inches Slotted optical switch phototransistor output. Opaque polysulpone discrete shells with .02 inches SQ, leads. Electrical parameter B lead spacing .320 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .010 inches Slotted optical switch phototransistor output. Opaque polysulpone discrete shells with .02 inches SQ, leads. Electrical parameter B lead spacing .320 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .050 inches Slotted optical switch phototransistor output. IR transmissive polysulpone discrete shells with .02inches SQ, leads. Electrical parameter C lead spacing .220 inches. Aperture in front of sensor .010 inches. Aperture in front of emitter .05 Slotted optical switch phototransistor output. IR transmissive polysulpone discrete shells with .02inches SQ, leads. Electrical parameter C lead spacing .220 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .01 Slotted optical switch phototransistor output. IR transmissive polysulpone discrete shells with .02inches SQ, leads. Electrical parameter C lead spacing .220 inches. Aperture in front of sensor .050 inches. Aperture in front of emitter .05
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Optek Technology
|
BGA318 Q62702-G0043 |
From old datasheet system Silicon Bipolar MMIC-Amplifier (Cascadable 50 W-gain block 16 dB typical gain at 1.0 GHz 12 dBm typical P-1dB at 1.0 GHz) 硅双极单片放大器(级0瓦,增益模块十六分贝典型增益.0 GHz2 dBm典型的P - 1dB的在1.0千兆赫) Silicon Bipolar MMIC-Amplifier (Cascadable 50 W-gain block 16 dB typical gain at 1.0 GHz 12 dBm typical P-1dB at 1.0 GHz) 0 MHz - 1200 MHz RF/MICROWAVE WIDE BAND LOW POWER AMPLIFIER
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SIEMENS[Siemens Semiconductor Group] SIEMENS AG
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MPX200GVSX MPX200ASX MPX200D MPX200DP MPX200GP MPX |
0 to 200 kPa (0-29 psi) 60 mV FULL SCALE SPAN (TYPICAL) 000千帕-29 PSI)的60压全尺寸跨度(典型) 0 to 200 kPa (0-29 psi) 60 mV FULL SCALE SPAN (TYPICAL) GAGE, PEIZORESISTIVE PRESSURE SENSOR, 0-29Psi, 0.25%, 20-80mV, THROUGH HOLE MOUNT
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Motorola Mobility Holdings, Inc. Motorola, Inc. MOTOROLA[Motorola, Inc] http://
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MPX2100 MPX2100A MPX2100DP MPX2100GVP MPX2100AS MP |
0 to 100 kPa (0 to 14.5 psi) 40 mV FULL SCALE SPAN (TYPICAL) 000千帕4.5 PSI)的全尺寸为40 mV跨度(典型) (MPX2100 / MPX2101) 0 to 100 kPa (0 to 14.5 psi) 40 mV FULL SCALE SPAN (TYPICAL) Sensor
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Motorola Mobility Holdings, Inc. Motorola, Inc. MOTOROLA[Motorola Inc] MOTOROLA[Motorola, Inc]
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MCP6542 MCP6542-I/MS MCP6542-I/P MCP6542-I/SN MCP6 |
The MCP6544 is a Push-pull, quad comparator. This single-ended device operates from 1.6V to 5.5V,with typical quiescent current of ... The MCP6541 is a Push-pull, single comparator. This single-ended device operates from 1.6V to 5.5V, with typical quiescent current ... Push-Pull Output Sub-Microamp Comparators The MCP6544 is a Push-pull, quad comparator. This single-ended device operates from 1.6V to 5.5V, with typical quiescent current of 600 nA and a maximum of 1 microamp. This device is offered in the 16 lead PDIP, SOIC and 14 lead TSSOP pack The MCP6543 is a Push-pull, single comparator. This single-ended device operates from 1.6V to 5.5V, with typical quiescent current of 600 nA and a maximum of 1 microamp. This device is offered in the eight lead PDIP, SOIC and MSOP package, The MCP6542 is a Push-pull, dual comparator. This single-ended device operates from 1.6V to 5.5V, with typical quiescent current of 600 nA and a maximum of 1 microamp. This device is offered in the eight lead PDIP, SOIC and MSOP package. The MCP6541 is a Push-pull, single comparator. This single-ended device operates from 1.6V to 5.5V, with typical quiescent current of 600 nA and a maximum of 1 microamp. This device is offered in the eight lead PDIP, SOIC, MSOP and five le The MCP6543 is a Push-pull, single comparator. This single-ended device operates from 1.6V to 5.5V,with typical quiescent current ... The MCP6542 is a Push-pull, dual comparator. This single-ended device operates from 1.6V to 5.5V,with typical quiescent current of ... From old datasheet system IC,VOLT COMPARATOR,DUAL,CMOS,TSSOP,8PIN,PLASTIC
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Microchip Technology Inc.
|
STS-8831 |
Dual Channel Optical Switch Assembly Over / Under Optical Axis
|
Silonex Inc.
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MCP603T-E/ST MCP603T-I/ST MCP6022-I/SN MCP6022-I/S |
MCP603 operational amplifier (op amp) has a gain bandwidth product of 2.8 MHz with low typical operating current of 230 and an offset ... The MCP602 dual operational amplifier (op amp) has a gain bandwidth product of 2.8 MHz with low typical operating current of 230 ... MCP601 operational amplifier (op amp) has a gain bandwidth product of 2.8 MHz with low typical operating current of 230 and an offset ... The MCP604 quad operational amplifier (op amp) has a gain bandwidth product of 2.8 MHz with low typical operating current of 230. ...
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Microchip
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MCP619-I/P MCP619-I/SL MCP619-I/ST MCP617-I/MS MCP |
The MCP619 quad operational amplifier (op amp) has a gain bandwidth product of 190 kHz with a low typical operating current of 19 ... The MCP617 dual operational amplifier (op amp) has a gain bandwidth product of 190 kHz with a low typical operating current of 19 ... The MCP618 operational amplifier (op amp) has a gain bandwidth product of 190 kHz with a low typical operating current of 19 µA ... The MCP616 operational amplifier (op amp) has a gain bandwidth product of 190 kHz with a low typical operating current of 19 µA ...
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Microchip
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