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Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
CD4504BKMSR Intersil Corporation HEX TTL/CMOS TO CMOS TRANSLATOR, INVERTED OUTPUT, CDFP16
ISL45042AIRZ-TK Intersil Corporation SPECIALTY CONSUMER CIRCUIT, PDSO8, 3 X 3 MM, ROHS COMPLIANT, PLASTIC, TDFN-8
ISL54504IRUZ-T Intersil Corporation +1.8V to +5.5V, 2.5?, Single SPST Analog Switches; SOT6, uTDFN6; Temp Range: -40° to 85°C
CD4504BDMSR Intersil Corporation CD4504BDMSR
ISL45042AIRZ-T Intersil Corporation SPECIALTY CONSUMER CIRCUIT, PDSO8, 3 X 3 MM, ROHS COMPLIANT, PLASTIC, TDFN-8
ISL54504IHZ-T Intersil Corporation +1.8V to +5.5V, 2.5?, Single SPST Analog Switches; SOT6, uTDFN6; Temp Range: -40° to 85°C

4504-440-ALM0DB=3/8-7 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
4-40x1

Abstract: No abstract text available
Text: No file text available


Original
PDF 4504-440-N 4-40x1
387 LAMP

Abstract: 327 LAMP 1819 lamp B3306 387 LAMP GROOVED G206 327 led BP 4087 F206CG6-24V/20-P FF200
Text: Based LEDs (Continued) Incandescent Incandescent # LED Lamp Series 327, 387 327, 387 327, 387 327, 387 327, 387 327, 387 327, 387 327, 387 327, 387 327, 387 327, 387 327, 387 327, 387 327, 387 327, 387 F206 327, 387 327, 387 EXT. RES. REQD. EXT. RES. REQD. EXT. RES. REQD. EXT. RES. REQD. EXT. RES. REQD. 327, 387 327, 387 327, 387 327, 387 327, 387 327, 387 327, 387 327, 387 327, 387 327, 387 327, 387 327, 387 FF200 FS206 Series LED Lamp FSN


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PDF FF200 FS206 F5SB202 5SB202 387 LAMP 327 LAMP 1819 lamp B3306 387 LAMP GROOVED G206 327 led BP 4087 F206CG6-24V/20-P FF200
1S1877

Abstract: 70M40 70MA160 81F3FMA 1S1874 70M10 70M20 70M60 70M50 1S1878
Text: ] 42 70M10 200 100 250 107c 4000 1. 5 800 20mA 100 lS1872ffl3 387 TOMI 5 250 150 250 107c 4000 1. 5 800 2 oh a 150 1S1873ÌB3 387 70M20 300 200 250 107c 4000 1. 5 800 20mA 200 1S1874ÌB3 387 70m30 B 400 300 250 I07c 4000 1. 5 800 20»A 300 1SI875ÌB3 387 70M40 600 400 250 107c 4000 1. 5 800 20nA 400 lS1876fB3 387 70M50 b 700 500 250 107c 4000 1. 5 800 20mA 500 1S1877*B^ 387 70M60 BXIVh 800 EOO 250 107c 4000 1. 5 800 20»A 800 1S1878ÌI3 387 70M80


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PDF 608C15 70M10 lS1872ffl3 1S1873Ã 70M20 1S1874Ã 70m30 1SI875Ã 70M40 lS1876fB3 1S1877 70M40 70MA160 81F3FMA 1S1874 70M10 70M20 70M60 70M50 1S1878
70MA160

Abstract: 70M10 70MA40 70M20 70M50 70M40 1S1878 1S1877 1S1874 70M100
Text: ] 42 70M10 200 100 250 107c 4000 1. 5 800 20mA 100 lS1872ffl3 387 TOMI 5 250 150 250 107c 4000 1. 5 800 2 oh a 150 1S1873ÌB3 387 70M20 300 200 250 107c 4000 1. 5 800 20mA 200 1S1874ÌB3 387 70m30 B 400 300 250 I07c 4000 1. 5 800 20»A 300 1SI875ÌB3 387 70M40 600 400 250 107c 4000 1. 5 800 20nA 400 lS1876fB3 387 70M50 b 700 500 250 107c 4000 1. 5 800 20mA 500 1S1877*B^ 387 70M60 BXIVh 800 EOO 250 107c 4000 1. 5 800 20»A 800 1S1878ÌI3 387 70M80


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PDF 608C15 70M10 lS1872ffl3 1S1873Ã 70M20 1S1874Ã 70m30 1SI875Ã 70M40 lS1876fB3 70MA160 70M10 70MA40 70M20 70M50 70M40 1S1878 1S1877 1S1874 70M100
70MA160

Abstract: 106C 70ma40 70M100 70M30 1S1877 1s2812 70M10 ls2811 70M50
Text: ] 42 70M10 200 100 250 107c 4000 1. 5 800 20mA 100 lS1872ffl3 387 TOMI 5 250 150 250 107c 4000 1. 5 800 2 oh a 150 1S1873ÌB3 387 70M20 300 200 250 107c 4000 1. 5 800 20mA 200 1S1874ÌB3 387 70m30 B 400 300 250 I07c 4000 1. 5 800 20»A 300 1SI875ÌB3 387 70M40 600 400 250 107c 4000 1. 5 800 20nA 400 lS1876fB3 387 70M50 b 700 500 250 107c 4000 1. 5 800 20mA 500 1S1877*B^ 387 70M60 BXIVh 800 EOO 250 107c 4000 1. 5 800 20»A 800 1S1878ÌI3 387 70M80


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PDF 608C15 70M10 lS1872ffl3 1S1873Ã 70M20 1S1874Ã 70m30 1SI875Ã 70M40 lS1876fB3 70MA160 106C 70ma40 70M100 1S1877 1s2812 70M10 ls2811 70M50
70M10

Abstract: 70MA30 1S1877 LS2811 70MA20 70MA160 106C 106E 70M40 70M60
Text: ] 42 70M10 200 100 250 107c 4000 1. 5 800 20mA 100 lS1872ffl3 387 TOMI 5 250 150 250 107c 4000 1. 5 800 2 oh a 150 1S1873ÌB3 387 70M20 300 200 250 107c 4000 1. 5 800 20mA 200 1S1874ÌB3 387 70m30 B 400 300 250 I07c 4000 1. 5 800 20»A 300 1SI875ÌB3 387 70M40 600 400 250 107c 4000 1. 5 800 20nA 400 lS1876fB3 387 70M50 b 700 500 250 107c 4000 1. 5 800 20mA 500 1S1877*B^ 387 70M60 BXIVh 800 EOO 250 107c 4000 1. 5 800 20»A 800 1S1878ÌI3 387 70M80


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PDF 608C15 70M10 lS1872ffl3 1S1873Ã 70M20 1S1874Ã 70m30 1SI875Ã 70M40 lS1876fB3 70M10 70MA30 1S1877 LS2811 70MA20 70MA160 106C 106E 70M40 70M60
2001 - ff200-0ag-028b

Abstract: FF200-0UY-014B FFL200 FF200-0AG-006B FF200 fl206 0AG-024B FF200-0UR-014B FF200-0UO-014B FF200-0UY-006B
Text: 115 327,376, 387 FF200-0UR-024B 24V 15 85 327,376, 387 FF200-0UR-028B 28V 15 , -0UO-024B 20 15 130 327,376, 387 12/14V 24V 327,376, 387 FF200-0UO-028B 28V 15 98 , 116 327,376, 387 FF200-0UY-024B 24V 15 75 327,376, 387 FF200-0UY-028B 28V 15 , 15 160 327,376, 387 FF200-0CW-024B 24V 15 160 327,376, 387 FF200 , Red GaAIAs/GaAIAs FF200-0UG-014B 12/14V 20 58 327,376, 387 .65 MAX .20 .28


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PDF FF200-0UR-006B FF200-0UR-014B 12/14V FF200-0UR-024B FF200-0UR-028B FF200-0UO-006B FF200-0UO-014B FF200-0UO-024B FF200-0UO-028B ff200-0ag-028b FF200-0UY-014B FFL200 FF200-0AG-006B FF200 fl206 0AG-024B FF200-0UR-014B FF200-0UO-014B FF200-0UY-006B
2001 - F200-0AG-006B

Abstract: No abstract text available
Text: 120º 120º 120º 120º 120º 120º 330,382,394 .28 327,376, 387 327,376, 387 FF200 .240 Dia , InGaAIP .20 328,345,350 .65 MAX 330,382,394 .28 327,376, 387 327,376, 387 FF200 .240 Dia , , 387 327,376, 387 FF200 .240 Dia Center Contact 8000K Cool White SiC/GaN .20 328,345,350 .65 MAX 330,382,394 .28 327,376, 387 327,376, 387 FF200 .240 Dia Center Contact 570nm Lime Green InGaAIP .20 .65 MAX 328,345,350 330,382,394 .28 327,376, 387 327,376, 387 FF200


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PDF 660nm FF200-0UR-006B FF200-0UR-014B FF200-0UR-024B FF200-0UR-028B FF200-0UO-006B FF200-0UO-014B FF200-0UO-024B FF200-0UO-028B FF200-0UY-006B F200-0AG-006B
M803

Abstract: D1351 M17S 1387T M80286 i387 i386 ex board M8038 i386 SL
Text: , -40°C to + 1 1 0 °C (T c) The Intel ¡ 387 is a high-performance numerics processor extension that , . The ¡ 387 microprocessor is imple mented with 1.5 micron, high-speed CHMOS technology and packaged in a , Processors Register Set 1.0 FU N C TIO N A L D ESC R IPTIO N The ¡ 387 Numeric Processor Extension (NPX , functions). The ¡ 387 microprocessor effectively extends the register and instruction set of an i386 , of registers visi ble to ¡386/i387 processor programs. Essentially, the ¡ 387 NPX can be treated as an


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PDF 387TM Virtual-8086 80-Bit 68-Pin 68-Lead M8087/M80287 M8087 M80287 386tm M803 D1351 M17S 1387T M80286 i387 i386 ex board M8038 i386 SL
70MA160

Abstract: 70M10 LS2811 106E 70M60 70M80 70MA40 1S1873 1S1874 1S1878
Text: ] 42 70M10 200 100 250 107c 4000 1. 5 800 20mA 100 lS1872ffl3 387 TOMI 5 250 150 250 107c 4000 1. 5 800 2 oh a 150 1S1873ÌB3 387 70M20 300 200 250 107c 4000 1. 5 800 20mA 200 1S1874ÌB3 387 70m30 B 400 300 250 I07c 4000 1. 5 800 20»A 300 1SI875ÌB3 387 70M40 600 400 250 107c 4000 1. 5 800 20nA 400 lS1876fB3 387 70M50 b 700 500 250 107c 4000 1. 5 800 20mA 500 1S1877*B^ 387 70M60 BXIVh 800 EOO 250 107c 4000 1. 5 800 20»A 800 1S1878ÌI3 387 70M80


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PDF 608C15 70M10 lS1872ffl3 1S1873Ã 70M20 1S1874Ã 70m30 1SI875Ã 70M40 lS1876fB3 70MA160 70M10 LS2811 106E 70M60 70M80 70MA40 1S1873 1S1874 1S1878
G1251

Abstract: intel 8295 Block diagram microprocessor GE NPX i386 ex 8097 architecture d1251 i387 M8087 M80B 80287 coprocessor architecture
Text: Only, -55°C to + 125°C (Tc) - Extended Temperature, -40°C to + 1 1 0 °C (T C) The Intel ¡ 387 is a , /IEEE floating-point standard. Using a numerics oriented architecture, thé ¡ 387 processor adds over , the ¡386/80287, 80286/80287 and 8086/8087 computing systems. Figure 0.1. ¡ 387 TM Math Coprocessor , B .p ¡ 387 TM - 1 -1 -^_i- SEGMENT REGISTERS 15 0 , M80386) Figure 1.1. I386TM /I 387 tm Processors Register Set 1.0 FUNCTIONAL DESCRIPTION The ¡ 387


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PDF 012S1 387TM 80-Bit M8087/M80287 M8087 M80287 386TM 64-Bit 18-Digit G1251 intel 8295 Block diagram microprocessor GE NPX i386 ex 8097 architecture d1251 i387 M80B 80287 coprocessor architecture
fl206

Abstract: FF200-0UR-006B FF200-0UO-028B FF200-0UO-024B FF200-0UO-014B FF200-0UO-006B FF200-0UY-024B FF200-0UY-014B FF200-0UY-006B FF200-0UR-028B
Text: ,382,394 FF200-0UR-014B 12/14V 20 115 327,376, 387 FF200-0UR-024B 24V 15 85 327,376, 387 FF200-0UR-028B 28V 15 85 328,345,350 FF200-0UO-006B 5/6V 20 130 330,382,394 FF200-0UO-014B FF200-0UO-024B 12/14V 24V 20 15 130 327,376, 387 327,376, 387 FF200-0UO-028B 28V 15 98 328,345,350 FF200-0UY-006B 5/6V 20 116 330,382,394 FF200-0UY-014B 12/14V 20 116 327,376, 387 FF200-0UY-024B 24V 15 75


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PDF FF200-0UR-006B FF200-0UR-014B 12/14V FF200-0UR-024B FF200-0UR-028B FF200-0UO-006B FF200-0UO-014B FF200-0UO-024B FF200-0UO-028B fl206 FF200-0UR-006B FF200-0UO-028B FF200-0UO-024B FF200-0UO-014B FF200-0UO-006B FF200-0UY-024B FF200-0UY-014B FF200-0UY-006B FF200-0UR-028B
2001 - Not Available

Abstract: No abstract text available
Text: ,382,394 FF200-0UR-014B 12/14V 20 115 327,376, 387 FF200-0UR-024B 24V 15 85 327,376, 387 FF200-0UR-028B 28V 15 85 328,345,350 FF200-0UO-006B 5/6V 20 130 330,382,394 FF200-0UO-014B FF200-0UO-024B 12/14V 24V 20 15 130 327,376, 387 327,376, 387 FF200-0UO-028B 28V 15 98 328,345,350 FF200-0UY-006B 5/6V 20 116 330,382,394 FF200-0UY-014B 12/14V 20 116 327,376, 387 FF200-0UY-024B 24V 15 75


Original
PDF FF200-0UR-006B FF200-0UR-014B 12/14V FF200-0UR-024B FF200-0UR-028B FF200-0UO-006B FF200-0UO-014B FF200-0UO-024B FF200-0UO-028B
2001 - Not Available

Abstract: No abstract text available
Text: 114 .75 .75 .75 1.32 1.32 1.32 19 19 19 34 34 34 3.87 3.87 3.87 3.87 3.87 3.87 98 98 98 98 98 98 3.87 3.87 3.87 3.87 3.87 3.87 G inches mm 98 98 98 98 98


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PDF 16/20A 30/32A
2001 - Not Available

Abstract: No abstract text available
Text: .75 .75 1.32 1.32 1.32 19 19 19 34 34 34 3.87 3.87 3.87 3.87 3.87 3.87 98 98 98 98 98 98 3.87 3.87 3.87 3.87 3.87 3.87 G inches mm 98 98 98 98 98 98 , 49 49 3.87 3.87 3.87 4.87 4.87 98 98 98 124 124 3.87 3.87 3.87 4.87 4.87 G , 1.68 1.68 1.68 1.94 1.94 43 43 43 49 49 3.87 3.87 3.87 4.87 4.87 98 98 98 124 124 3.87 3.87 3.87 4.87 4.87 98 98 98 124 124 G inches mm 2.38 2.38 2.38 2.38


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PDF 60/63A 100/125A 16/20A 30/32A 30/32A
TB 2929 H

Abstract: No abstract text available
Text: 387701226 387701227 387701228 387701229 387701230 ASSEMBLY MATERIAL NO . (-50 OPTION) 387 7 02 6 02 387 7 02 6 03 387 7 02 6 04 387 7 02 6 05 387 7 02 6 06 387 7 02 6 07 387 7 02 6 08 387 7 02 6 09 387702610 387702611 387702612 387702613 387702614 387702615 387702616 387702617 387702618 387702619 387 7 02 6 20 387702621 387 7 02 6 22 387 7 02 6 23 387 7 02 6 24 387 7 02 6 25 387 7 02 6 26 387 7 02 6 27 387 7 02 6 28 387 7 02 6 29 387 7 02 6 30 [1/1] [1.78] [2.16] [2.53] [2.91] [3.28] [3.66] [4.03] [4.41] [4.78


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PDF 6-32X SD-38770-005_ TB 2929 H
2007 - Not Available

Abstract: No abstract text available
Text: . +.000 –.005 W +.011 –.010 Z Max. 6 .511 .3750 DS .422 .438 .094 . 387 8 .636 .5000 DS .422 .562 .094 . 387 10 .761 .6250 DS .422 .672 .094 . 387 12 .855 .7500 DS .422 .781 .094 . 387 14 .980 .8750 DS .422 .906 .094 . 387 16 1.105 1.0000 DS .422 1.031 .094 . 387 18 1.229 1.1250 DS .422 1.156 .094 . 387 20 1.323 1.2500 DS .422 1.250 .094


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PDF
2015 - Not Available

Abstract: No abstract text available
Text: +13 dBm, UG- 387 /U Flange, W Band Waveguide Converters - PE13U1001 Features • • • â , level: +13 dBm nominal RF & LO Ports: WR-12 with UG- 387 /U-MOD Flange Applications â , -12 From 60 GHz to 90 GHz, IF From DC to 18 GHz And LO Power of +13 dBm, UG- 387 /U Flange, W Band PE13U1001 , And LO Power of +13 dBm, UG- 387 /U Flange, W Band Waveguide Converters - PE13U1001 Connectors Description Type RF Connector LO Connector IF Connector WR-12 UG- 387 /U WR-12 UG- 387 /U


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PDF WR-12 UG-387/U PE13U1001 UG-387/U-MOD PE13U1001 ter-wr-12-60-90-ghz-if-18-ghz-pe13u1001-p
Not Available

Abstract: No abstract text available
Text: .781 .906 1.031 1.156 1.250 1.375 .094 .094 .094 .094 .094 .094 .094 .094 .125 . 387 . 387 . 387 . 387 . 387 . 387 . 387 . 387 .418 .3750 DS .5000 DS .6250 DS .7500 DS .8750 DS 1.0000 DS 1.1250 DS


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PDF
2011 - 9410

Abstract: No abstract text available
Text: ,50-<0 78=0 =20 70> 9-.4-10 /3607< 387 < -;.8;/371 =8 ,*+ %##("$&'") ,50-<0 78=0 =20 70> 9-.4-10 /3607< 387 < -;.8;/371 =8 ,*+ %##("$&'") ,50-<0 78=0 =20 70> 9-.4-10 /3607< 387 < -;.8;/371 =8 ,*+ %##("$&'") ,50-<0 78=0 =20 70> 9-.4-10 /3607< 387 < -;.8;/371 =8 ,*+ %##("$&'") ,50-<0 78=0 =20 70> 9-.4-10 /3607< 387 < -;.8;/371 =8 ,*+ %##("$&'") ,50-<0 78=0 =20 70> 9-.4-10 /3607< 387 < -;.8;/371 =8 ,*+ %##("$&'") ,50-<0 78=0 =20 70> 9-.4-10 /3607< 387 < -;.8;/371 =8 ,*+ %##("$&'") ,50-<0 78=0


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PDF 009-134-A O-247 PG-TO247-3 O-247, 9410
Not Available

Abstract: No abstract text available
Text: ,50-<0 78=0 =20 70> 9-.4-10 /3607< 387 < -;.8;/371 =8 ,*+ %##("$&'") ,50-<0 78=0 =20 70> 9-.4-10 /3607< 387 < -;.8;/371 =8 ,*+ %##("$&'") ,50-<0 78=0 =20 70> 9-.4-10 /3607< 387 < -;.8;/371 =8 ,*+ %##("$&'") ,50-<0 78=0 =20 70> 9-.4-10 /3607< 387 < -;.8;/371 =8 ,*+ %##("$&'") ,50-<0 78=0 =20 70> 9-.4-10 /3607< 387 < -;.8;/371 =8 ,*+ %##("$&'") ,50-<0 78=0 =20 70> 9-.4-10 /3607< 387 < -;.8;/371 =8 ,*+ %##("$&'") ,50-<0 78=0 =20 70> 9-.4-10 /3607< 387 < -;.8;/371 =8 ,*+ %##("$&'") ,50-<0 78=0


Original
PDF /36ess 009-134-A O-247 PG-TO247-3 O-247,
Not Available

Abstract: No abstract text available
Text: .094 .125 Shell Size 6 8 10 12 14 16 18 20 22 Z Max. . 387 . 387 . 387 . 387 . 387 . 387 . 387 . 387 .418


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PDF
2001 - k1522

Abstract: 1N4448
Text: PBL 387 10/1 Subscriber Line Interface Circuit (SLIC) Key Features VBAT2 · Ring SLIC , . Block diagram. Description The PBL 387 10/1 ring SLIC (Subscriber Line Interface Circuit) is a , and height result as well. The PBL 387 10/1 has been optimized for low cost and to require only a minimum of external components. The PBL 387 10/1 constant-current feed system, programmable to max 40 mA , . The PBL 387 10/1 package is 28-pin PLCC. PBL 387 10/1 Maximum Ratings Parameter Symbol


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PDF SE-164 k1522 1N4448
ERICSSON

Abstract: No abstract text available
Text: ERICSSON ^ February 1999 PBL 387 10/1 Subscriber Line Interface Circuit Description The PBL 387 10/1 ring SLIC (Subscriber Line Interface Circuit) is a bipolar integrated circuit in 90 V , only is required PCB area reduced, but less component weight and height result as well. The PBL 387 10/1 has been optimized for low cost and to require only a minimum of external components. The PBL 387 , terminating impedance could be complex or real to fit every market. The PBL 387 10/1 package is 28-pin PLCC


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PDF 1522-PBL S-164 ERICSSON
Not Available

Abstract: No abstract text available
Text: ERICSSON ^ December 1998 PBL 387 10/1 Subscriber Line Interface Circuit Description The PBL 387 10/1 ring SLIC (Subscriber Line Interface Circuit) is a bipolar integrated circuit in 90 V , only is required PCB area reduced, but less component weight and height result as well. The PBL 387 10/1 has been optimized for low cost and to require only a minimum of external components. The PBL 387 , terminating impedance could be complex or real to fit every market. The PBL 387 10/1 package is 28-pin PLCC


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PDF 1522-PBL S-164
Supplyframe Tracking Pixel