The Datasheet Archive

Top Results (6)

Part Manufacturer Description Datasheet Download Buy Part
LTC2656CIFE-L16#TRPBF Linear Technology LTC2656 - Octal 16-/12-Bit Rail-to-Rail DACs with 10ppm/°C Max Reference; Package: TSSOP; Pins: 20; Temperature Range: -40°C to 85°C
LTC2262CUJ-12#TRPBF Linear Technology LTC2262-12 - 12-Bit, 150Msps Ultralow Power 1.8V ADC; Package: QFN; Pins: 40; Temperature Range: 0°C to 70°C
LTC2301CDE#TRPBF Linear Technology LTC2301 - 1-Channel, 12-Bit ADCs with I2C Compatible Interface; Package: DFN; Pins: 12; Temperature Range: 0°C to 70°C
LTC2305IDE#TRPBF Linear Technology LTC2305 - 2-Channel, 12-Bit ADCs with I2C Compatible Interface; Package: DFN; Pins: 12; Temperature Range: -40°C to 85°C
LTC2257IUJ-12#TRPBF Linear Technology LTC2257-12 - 12-Bit, 40Msps Ultralow Power 1.8V ADCs; Package: QFN; Pins: 40; Temperature Range: -40°C to 85°C
LTC2263CUJ-12#PBF Linear Technology LTC2263-12 - 12-Bit, 25Msps Low Power Dual ADCs; Package: QFN; Pins: 40; Temperature Range: 0°C to 70°C

sgs-thomson TO-3 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
1995 - atmel 93C46

Abstract:
Text: ­ ­ ­ 2-wire 4-wire 2-wire 3 -wire *The above trademarks are property of their respective , Exel XL24C01-2.5 XL93CCSLC46 XL93CCSLC46- 3 XL24C01A- 3 XL24C02 Exel Exel Exel Exel Exel Exel Exel XL24C02- 3 XL93C56,LC56 XL24C01-2.5 XL93LC56- 3 XL93C66,LC66 XL93C66- 3 ,LC66- 3 XL24C04 , National XL24C04- 3 XL24C04-2.5 XL24C16 XL24C16- 3 IS93C46 IS93C46- 3 IS93C56 IS93C66 NM93C06 , . DS21090D-page 3 SERIAL EEPROM COMPETITIVE PART NUMBER BREAKDOWN FIGURE 2: AT XXXX ATMEL X X X


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PDF DS21090D-page atmel 93C46 93c46 atmel 93C46 national 93C46 national semiconductor 24c04 Atmel 93c46 I2C atmel 24c04 ATMEL 24c32 atmel 24c02 24c04a atmel
fast diode ifm 60 A transil

Abstract:
Text: 7/ FEATURES SGS-THOMSON RfflD©Wt[l(§WlD©i S TP S 12035T( V) S TP S 12045T(V) POWER SCHOTTKY RECTIFIER 4 - M- 2 - M 3 1 1 = A1 2 = Ki 3 = A2 VERY SMALL CONDUCTION LOSSES . NEGLIGIBLE SWITCHING LOSSES LOW FORWARD VOLTAGE DROP . LOW THERMAL RESISTANCE EXTREMELY FAST SWITCHING . INSULATED , 100 125 \ 150 7 SGS-THOMSON STPS12035T(V) / STPS12045T(V) Fig- 3 : Non repetitive surge , 3 /5 STPS12035T(V) / STPS12045T(V) PACKAGE MECHANICAL DATA ISOTOP DIMEN SIONS REF. A B C D E


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PDF 12035T( 12045T fast diode ifm 60 A transil 12035TV 12045TV
1996 - PLCC32 package

Abstract:
Text: 3 4 Retention Bake Retention Bake Retention Bake (after 10k cycles) 5 Temperature, Humidity, Bias 7 8 9 10 11 1008 Notes: 1. 2. 3 . 4. CECC 90,000 1010 , 168 hrs 226 0 4 226 226 0 0 1, 3 , 4 85°C, RH = 85%, VCC = 5V, ­ 168 hrs ­ 500 , specification. Test performed on FDIP32W package. Data collection in progress. Samples is coming from 3 , Data Coplanarity PLCC32 Package Published Data 1 2 Bond Strength 2011 1 3


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PDF M28F201: PLCC32 M28F201 PLCC32 TSOP32 PLCC32 package QR110
1996 - M28F201

Abstract:
Text: 60 60 25 25 197 197 224 224 25 25 25 Fail 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 0 4 1, 3 , 4 1 Note 2 Retention Bake 1008 2, 4 3 Retention Bake 1008 4 5 6 Retention , Surface Mounting devices according to SGS-THOMSON specification. 2. Test performed on FDIP32W package. 3 . Data collection in progress. 4. Samples is coming from 3 different lots minimum. 2/4 QR110 , Subgro up 1 Test Procedure Physical Dimensions Coplanarity PLCC32 Package 2 3 4 5 6 Bond Strength Die


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PDF M28F201: PLCC32 M28F201 PLCC32 TSOP32
Not Available

Abstract:
Text: r z 7 SGS-THOMSON ^ 7 # HCC4538B HCF4538B M l B I S i @ E H Ig C T I 3 @ M ( 5 g , Voltage: HCC Types HCF Types Parameter 3 to 18 3 to 15 V V Input Voltage 0 to V dd V , to Term. NO Function Mono (1) 3 , 5 Mono (2) 11, 13 Leading-Edge T rigger/Non-retriggerable 3 13 Trailing-Edge T rigger/Retriggerable 3 13 Trailing-Edge T rigger/Non-retriggerable 3 13 Leading-Edge T rigger/Retriggerable Mono (1) Other Connections Mono (2


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PDF HCC4538B HCF4538B 100nA
1997 - TSOP32 Package

Abstract:
Text: -883 Procedure 2016 Coplanarity PLCC32 Package 2 Bond Strength 3 Die Attach Strength 4 , Visual and Mechanical 2014 1 5 0 6 Solderability PLCC32 Package 2003 215°C, 3 , TPEAK = 235°C ± 5°C 4. Visual Inspection 15 30°C, RH = 60%, 192 hrs 3 . 3 IR Cycles Exposure , , RH = 100% ­ 96 hrs ­ 168 hrs ­ 240 hrs 1 3 Notes: 1. According to SGS-THOMSON specification. 2. Results for similarity, from standard production monitor. 3 . Samples previously submitted to


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PDF M29W040 T6-U10: PLCC32 TSOP32 TSOP32 T6-U10 100ns TSOP32 Package QR125
thermal head inkjet

Abstract:
Text: ^ 7 1 f Z T SGS-THOMSON MI]G[ 3 @[g[UE£miS>[Hl]£& L6451 ABSOLUTE MAXIMUM RATINGS Symbol , . PQFP44 55 O PLCC44 65 n Unit °c/w (*) device mounted on PCB. r= 7 SGS-IHOMSON 3 /9 L6451 , Ton T01 1 tr Signal Name INA, INB, INC, IND Vs COMn INA, INB, INC, IND Vs COMn COM1,2, 3 ,4 Vs OUT 0 to N COM1,2, 3 ,4 Vs OUT 0 to N Parameter SET - UP Time HOLD Time T U R N -O N Time TURN - OFF Time , t = 0.5A, R l = 3 9 fi T, = 25 to 90° C Io u t = 0.5A, R l = 39i2 Tj = 25 to 90° C 150 150 100


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PDF PLCC44 PQFP44 L6451 thermal head inkjet
1995 - Not Available

Abstract:
Text: Published Data Published Data 1 1 Result Samp. 5 5 Fail 0 0 Note 1 220 wires 9 45 5 0 3 4 5 , . 2. 3 . Temperature Cycling Drying Temperature, Humidity Exposure 3 IR Cycles Exposure Visual , 2027 2012 2014 215°C, 3 sec, Precondition, 8 hrs, Steam aging 4 Solvent Solutions 5µm min Sn/Pb 85/15 , 2 2, 3 4. 5. 6. 2 4 4 7. 8. Notes: 1. 2. 3 . 4. 2 See Table 3 2 According to SGS-THOMSON specification For samples and Results refer to Table 3 . Or equivalent conditions for package


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PDF M28F410/420, M28F411/421 TSOP40 M28F410/420 5/12V) 512Kx8 256Kx16
1997 - tsop32 8x20

Abstract:
Text: 2016 Coplanarity PLCC32 Package 2 Bond Strength 3 Die Attach Strength 4 Result , Mechanical 2014 1 5 0 6 Solderability PLCC32 Package 2003 215°C, 3 sec , 5°C 4. Visual Inspection 15 30°C, RH = 60%, 192 hrs 3 . 3 IR Cycles Exposure 0 125 , % ­ 96 hrs ­ 168 hrs ­ 240 hrs 1 3 Notes: 1. According to SGS-THOMSON specification. 2. Results for similarity, from standard production monitor. 3 . Samples previously submitted to


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PDF M29F040 T6-U20: PLCC32 TSOP32, TSOP32 T6-U20 tsop32 8x20 m29F040 micron QR124 TSOP32 Package
1997 - M29F200

Abstract:
Text: Package Published Data 2 2 Bond Strength 2011 2 3 Die Attach Strength 2019 or , 1 5 0 6 Solderability SO44 Package 2003 215°C, 3 sec, Precondition, 8 hrs, Steam , SO44 Package: (Note 1) 1 1. Drying 30°C, RH = 60%, 192 hrs 3 . 3 IR Cycles Exposure , Conditions Lots 1 2 3 4 Operating Life Test 1005 Low Temperature Operating Life Test , 0 60 60 60 0 0 0 15 15 0 0 140°C, VCC = 7V, ­ 168 hrs 1 1 3 3


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PDF M29F200 T6-U20: x8/x16) TSOP48 TSOP48 T6-U20 QR119
OR-SMA-R

Abstract:
Text: to change without notice F or com plete data, please contact 1/ 3 your nearest Sales Office , DESCRIPTION DEVICE OPERATION T heS T1200 has 3 operating modes in the normal system environment. They are , Figure 3 Memory Map With A = "0" and B = "1" , each pulse on ST pin will increment the address counter , , allowing 2/ 3 BD.1200/9612V1 ST1200 Figure4 Block Diagram SCP273b/FM Information , - Switzerland - Taiwan - Thailand - United Kingdom - U.S.A. 3 / 3


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PDF ST1200 ST1200 OR-SMA-R polysilicon fuse T1200
BUS49

Abstract:
Text: . All the switching possibilities are changed through the 3 -Wire Bus (THOMSON BUS). PIN CONNECTIONS , GROUND Output Output Output Output Output Output Not to be connected _ _ 2 3 4 5 6 - 7 , 4.5 5.5 7 5.5 25 6.5 10 15 -50 2.7 3 50 7.5 Vpp il dB MHz MHz dB V 3.3 3.6 3.9 Vpp Parameter Supply , ooxxx 000 100 010 110 001 101 011 111 Pin Pin Pin Pin Pin Pin Pin Pin 5 8 3 20 6 10 1 , ) (equals 25 hex.). _ SGS-1H0MS0N 3 /9 TEA6414A IN / OUT PIN CONFIGURATION


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PDF A6414A 15MHz TEA6414Ais BUS49
Not Available

Abstract:
Text: . LCC Pin Connections RB [ 1 A12 [ 2 A7 [ 3 A6 [ 4 A5 [ 5 A4 [ 6 A3 [ 7 A2 [ 8 ^ 28 ] Vcc , ]E ] DQ6 19 ] DQ7 17 ] DQ5 16 ] DQ4 DQ1 [ 12 DQ2 [ 13 Vss [ 14 ] A I0 1 5 3 9 B 15 , DQ2 d d d d DQ1 DQO AO A1 A2 27 - 1W A 7C 3 A6 m 4 A5 A4 A3 d d d 5 6 7 8 9 10 11 12 13 , ; MIL-STD-883C, 3015.7 Figure 3 . Block Diagram RB E G W t VppG EN - RESET i i i , LOAD TIMER STATUS TOGGLE BIT DATA POLLING { Z T SGS-THOMSON 3 /18 M28LV64 Table 3


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PDF M28LV64 200ns M28LV64) M28LV64
Not Available

Abstract:
Text: £ j ï SGS-THOMSON ULKgraMOeS S T E 3 6 N 5 0 -D A N - CHANNEL ENHANCEMENT MODE POWER MOS , s I d = 1 mA Min. 2 Typ. 3 0.12 Max. 4 0.14 0.28 Q . Q A V d S > lü(on) X RDS(on , Unit ns ns A/|us (see te s t circuit, fig u re 1) lD = 36 A V gs = 10 V Id = 3 6 A 700 (see te s t circuit, fig u re 3 ) Qg Qgs Qgd Total Gate Charge G ate-S ource Charge G ate-D rain Charge , 0 V Id = 3 6 A Rg = 4 . 7 Q . V GS = 10 V (see te s t circuit, fig u re 3 ) Min. Typ. 1 00 45


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PDF STE36N50-DA E81743) STE36N50-DK)
1995 - 5v DRIVE TRIAC GATE

Abstract:
Text: (see figure 3 ). AN442/0592 1/ 3 APPLICATION NOTE EXAMPLE : Figure 3 : An easy connection ! , 2V AT IG =70mA 3 PORTS IN PARALLEL/TRIAC B & BW SERIES IGT=50mA VG = 2V 4 PORTS IN , output ports in parallel. 2/ 3 ® APPLICATION NOTE Information furnished is believed to be , U.S.A. 3 / 3 ® STMicroelectronics


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PDF 02PHR358 5v DRIVE TRIAC GATE t410 TRANSISTOR parallel triac parallel triacs sgs Thomson Triac triac static switch SGS Transistor triac for microcontroller TRIAC SW Triac application note
1995 - triac BTA 412

Abstract:
Text: different thermal resistances heatsink + contact (BTA). Fig. 3 : Correlation between maximum RMS power , contact (BTB). Fig.4 : RMS on-state current versus case temperature. 3 /5 BTA06 T/D/S/A / BTB06 T , -110 4 -115 o 2 2 0 I T(RMS) (A) 0 1 2 -95 -100 8 = 120 -90 3 4 5 6 7 8 Fig. 3 : Correlation between maximum RMS power dissipation and maximum , 100 120 -125 140 0 0 10 20 30 40 50 60 70 80 90 100 110 120 130 3 /5 BTA08 B/C


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PDF BTA06 BTB06 E81734) BTA/BTB06 O220AB triac BTA 412 bta 18 612 BTA 139 600 ac motor triac bta16 circuit diagram BTA 612 BTA 610 triac TRIAC BTA 28 ac motor triac bta12 circuit diagram TRIAC BTA 41 bta 06 400 v
STV2118A

Abstract:
Text: BLANKING (VERTICAL AND HORIZONTAL) WHICH PERMIT ZOOM AND SUBTITLE FACILITIES FOR 4/ 3 AND 16/9 CRTs PIN , to permit 110° CRT applications covering standard 4/ 3 screen format and new 16/9 format with zoom , VRET □ 3 14 REGULATOR OUTPUT ~ FOR SERIES TRANSISTOR _ REG L 4 13 REGULATED VOLTAGE SUPPLY Vcc â , for acknowledge and data reply) 3 VRET Vertical Reset Input Vertical Synchronization Signal from , of Blanking (middle of line) STANDARD 4 : 3 50Hz 60Hz 0 0 0 No Blanking SUBTITLE 50Hz 60Hz Don't


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PDF STV2145 STV2118A STV2118A STV2145
1994 - M28F101

Abstract:
Text: /0494 1/ 3 QR102 Qualification Report Table 1. Product Qualification, Plastic Package Related , Dimensions 2016 2 Solderability Package CECC 90,000 3 Resistance to Solvents 2015 4 , Data 5 0 215°C, 3 sec, Precondition Dry Air, 150°C, 16 hrs 15 0 4 Solvent Solutions , 3 Temperature, Humidity, Bias 4 5 6 7 8 Notes: 2/ 3 Temperature Cycling , 1. Sample is coming from 3 different lots minimum. 2. Surface mounting preconditioned sample


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PDF M28F101 TSOP32 M28F101 100ns NOR Flash Qualification QR102 TSOP32 TSOP32 Package
1997 - ST20 Embedded Toolset

Abstract:
Text: libcplx.lib C+ complex mathematics class library 3 /6 ST20-SWC+ Preprocessor 2.4 Licensing The , available from SGSTHOMSON Sales Offices, Regional Technology Centers and authorized distributors. 3


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PDF ST20-SWC+ ST20 Embedded Toolset st20 D4414 ST20 TOOLSET ST20 manual embedded C PREPROCESSOR QIC-24 ST20-SWC transputer Unix System Laboratories
1996 - TR08

Abstract:
Text: Control & Reliability Attilio PANCHIERI QR108/0396 1/ 3 QR108 Qualification Report Table 1 , Test Procedure 1 Operating Life Test 2 3 Retention Bake Retention Bake (after 10k , JEDEC STD-17 Current Injection 200mA (min), Overvoltage 14V/500mA (min) 4, 5 6 4, 6 3 , technology, the M28F101, refer to the latest Quality and Reliability Report (QRR). 3 . Test not performed , Report, January to December 1995 (QRR032/0296). 2/ 3 QR108 Qualification Report Information


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PDF M28F256 T5-U20 PLCC32 T5-U20 100ns TR08 PLCC32 QR108
p10na40

Abstract:
Text: = 10V Id = 250 p. A lD = 5 A R D S ( o n ) max 2.25 3 0.46 3.75 0.55 V Û A ID ( o , (see test circuit, fig u re 3 ) V dd = 320 V Id = 10 A R g = 47 Q V gs = 10 V (see test circuit, figure , 10"4 10~ 3 10~2 10_1 tp(s) Derating Curve For T 0-22 0 rcni75in p .,. Derating Curve , . 2: Unclamped Inductive Waveforms Fig. 3 : Switching Times Test Circuits For Fig. 4: Gate Charge , 0 4.4 2.5 2.5 0.4 0.75 1.15 1.15 4.95 2.4 10 16 28.6 9.8 15.9 9 3 4.6 2.7 2.75 0.7 1 1.7 1.7


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PDF NA40FI 10NA40 10NA40FI p10na40
FZJ 145

Abstract:
Text: FZJ SGS-THOMSON * 7 1 ® T D A 4 4 3 3 TV SIGNAL IDENTIFICATION CIRCUIT AND AFC INTERFACE , LTAG E O UT IDENTIFICATIO N TIM E C O N S TA N T OUTPUT B N.C. 1 2 3 14 13 12 11 10 9 8 G , Supply Voltage (pin 1 ) Voltage at Pin 3 Voltage at Pin 13 Pin 6 and Pin 2 Current Pin 10 C urrent Pin 11 , V V V mA mA mA mA mW °C v3 Vi 3 Iß ; I2 I10 I11 I12 P101 T s ig , T] ^ 70 °C , LD CM Typ. Max. 8 V4 + 25 y 4 - 3 7 5 Unit V mV mV M£2 V v3 V 3U V3L Rs V4 u FU av4


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PDF TDA4433 FZJ 145
AL5V

Abstract:
Text: lo 330 mA DESCRIPTION The GS5T48-15 is a 5W DC-DC converter de signed to provide a l5V / 3 30 m A , current and continuous short-circuit protection. It is certified by UL, CSA (level 3 ) and TUV as having , Vi = 3 8 to 60V lo = 50 to 330mA Vi = 48V lo = 330mA BW = 5Hz to 20MHz Vi = 38 to 60V Vi = 48 V Vi = 3 8 to 60V Vi = 48V 500 Vi = 3 8 to 60V Vi = 48 V Still air Forced ventilation, air speed = 100 , lose Vis fs T 1 Top Top 200 82 +60 +70 +85 kHz % °C °C °C Tstg June 1994 1/ 3 GS5T48


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PDF GS5T48-15 GS5T48-15 AL5V
1997 - sgs thomson

Abstract:
Text: SmartCard Produ cts Divison, Rousset, France. Fax: (+33) 4 42 25 87 29 1/ 3 1 MICROMODULES , / ST16601 D2 Note : ST16601 / ST16SFxx / ST16CF54 are third generation MCU's. D3 D4 D5 2/ 3 , United Kingdom - U.S.A. 3 / 3 STMicroelectronics


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1994 - diode byt 11600

Abstract:
Text: . Figure 3 . Thermal resistance versus lead length. Mounting n°1 INFINITE HEATSINK Mounting n , mm). 3 /5 BYT 01-200 400 Figure 7. Recovery time versus diF/dt. Figure 8. Peak forward , 0.2 0.4 0.6 =tp/T 0.8 tp 1.0 1.2 Fig. 3 : Non repetitive surge peak forward , Tamb( o C) tp 40 60 80 100 120 140 160 3 /6 ® SMBYT01 Fig.7 : Recovery , . Figure 2. Average forward current versus ambient temperature. Figure 3 . Thermal resistance versus


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