The Datasheet Archive

AN76-1 datasheet (2)

Part ECAD Model Manufacturer Description Type PDF
AN-761 AN-761 ECAD Model Analog Devices ADN2892 Evaluation Board Original PDF
AN-761 AN-761 ECAD Model National Semiconductor Electronic Fuzing Original PDF

AN76-1 Datasheets Context Search

Catalog Datasheet MFG & Type PDF Document Tags
1996 - AN7610

Abstract: 68hc11 multiple byte transfer using spi x24f008 68HC11 68HC11A8 AN76 M68HC11 X24F016 X24F032 AN764
Text: Milpitas, CA 95035 · (408) 432-8888 AN76-1 Xicor Application Note AN76 , connected as shown in Fig. 1 . The interface uses two general purpose port D pins to interface to the , rate modem (8 bits, no parity, 1 stop bit, and no local echo). The listing can be found in the , PD1 PD2 PD3 PD4 PD5 MODA MODB E AS R/W 5 4 3 2 1 16 15 14 13 12 11 10 9 31 , S2 PP 1 2 3 7 X24F064 27 26 28 68HC11A8 Figure 1 - Typical hardware connection


Original
PDF X24F016/032/064 68HC11 X24Fxxx AN76-12 AN7610 68hc11 multiple byte transfer using spi x24f008 68HC11A8 AN76 M68HC11 X24F016 X24F032 AN764
1999 - an7614

Abstract: AN76 LTC1628 LTC1735 AN76-1 AN-76 LRF2512-01-R004J
Text: . OPTI-LOOP is a trademark of Linear Technology Corporation. AN76-1 Application Note 76 over , . Figure 1 shows the dramatic improvement possible with the OPTI-LOOP architecture. With the improvement shown in Figure 1 , less capacitance is required or less expensive capacitors can be used. Load , to changes in load current. TIME (10µs/DIV) DSOL8 F01 Figure 1 . Improved Transient Response , output capacitance. The corner frequency of this pole is: fP = 1 /(2RLCOUT) where: RL is the load


Original
PDF AN76-16 an7614 AN76 LTC1628 LTC1735 AN76-1 AN-76 LRF2512-01-R004J
2002 - TC1264VAB-3

Abstract: No abstract text available
Text: capability. FIGURE 1 : LDO power dissipation. When calculating power dissipation, it is critical that , 3: Example 1 : The TC1264VAB-3.0 (0.8A LDO in a TO-220-3 package) is being used to regulate a 5V , load plus the power dissipated in the LDO, or: PIN = POUT + PLDO EQUATION 1 : The power dissipation of , EQUATION 6: or 12 = (T1 ­ T2)/PD EQUATION 7: © 2002 Microchip Technology, Inc. DS00761A-page 1 AN761 Where: T1 = Temperature of Point 1 T2 = Temperature of Point 2 PD = Power dissipated in the


Original
PDF AN761 dissipa00 DS00761A* 0761A-page TC1264VAB-3
2011 - Not Available

Abstract: No abstract text available
Text: driver circuit for a consumer printer is shown in Figure 1 , below. As can be seen three pairs of , BLDC DMC4040SSD PHC_N DMC4040SSD Figure 1 Block diagram of a typical BLDC motor driver , of the MOSFET during motor start up. Issue 1 – June 2011 © Diodes Incorporated 2011 1 , waveform can be divided into two distinct periods: 1 ) the initial current torque sequence, T1, lasting 80 , measured gate rise and fall time respectively Issue 1 – June 2011 © Diodes Incorporated 2011


Original
PDF DMC4040SSD DMC4040SSD,
2005 - ADN2892

Abstract: AN-761
Text: data rate from a minimum of 1 Gbps up to maximum of 4.25 Gbps, the ADN2892 has better than 4 mV p-p , oscillation coming out of a cheap CD laser used in a legacy 1 Gbps Fibre Channel transmitters. The reduced , power supply. Table 1 . Switch Functions Switches Functions Default Setting Options S1 , k GND GND NC NC AVCC 1 k AVCC AVCC Quick Start Guide Please refer to Figure 1 for each of the following steps: 1 . Set the switch from S1 to S6 to the factory default setting shown in


Original
PDF AN-761 ADN2892 470pF AN05279 AN-761
2007 - ADN2892

Abstract: AN-761 1MC12
Text: ) to filter out the relaxation oscillation emanating from of inexpensive CD lasers used in legacy 1 , data rates, such as 1 ×FC. The ADN2892 evaluation board uses standard FR-4 material. Input/output , the Quick Start section while referring to Table 1 and Figure 1 . Table 1 . Switch Settings Switch , AVCC 10 k + 0.0 F GND 100 k GND GND Options NC NC VCC 1 k VCC VCC 05279-001 DIGITAL PICTURE OF ADN2892 EVALUATION BOARD Figure 1 . Factory Default Switch Settings of the ADN2892 Evaluation


Original
PDF AN-761 ADN2892 AN05279-0-11/07 AN-761 1MC12
2002 - TC1264VAB-3

Abstract: 200B AN761 DK-2750 TC1264 AN-761
Text: the power dissipated in the LDO, (Equation 1 ): Paul Paglia, Microchip Technology Inc , bias circuitry to ground (IGND). See Figure 1 . IIN LDO IN OUT IOUT VOUT IGND FIGURE 1 : PIN = POUT + PLDO The power dissipation of the LDO is expressed in Equation 2: EQUATION 2 , + VINMAX x IGNDMAX EXAMPLE 1 : The TC1264VAB-3.0 (0.8A LDO in a TO-220-3 package) is being used , DISSIPATION VIN EQUATION 1 : VOUTMIN = 2.93V Therefore, (Equation 4 and Equation 5). EQUATION 4


Original
PDF AN761 D-81739 DS00761B-page TC1264VAB-3 200B AN761 DK-2750 TC1264 AN-761
2000 - DS0026

Abstract: AN-76 MM5262 DS0026CN
Text: (Note 1 ) If Military/Aerospace specified devices are required, please contact the National , ) Symbol VIH IIH VIL IIL VOL VOH ICC(ON) ICC(OFF) Parameter Logic " 1 " Input Voltage Logic " 1 " Input Current Logic "0" Input Voltage Logic "0" Input Current Logic " 1 " Output Voltage Logic "0" Output Voltage "ON" , 2.4V, IOL = 1 mA VIN - V- = 0.4V, VSS V+ + 1.0V IOH = - 1 mA V - V = 20V, VIN - V = 2.4V V+ - V- = 20V , ns ns (Figure 1 ) (Figure 2) (Figure 1 ) (Figure 2) (Figure 1 ), (Note 5) (Figure 2), (Note 5) tf


Original
PDF DS0026 54S/74S DS8830 DM7440. int0026 AN-76: AN-76 MM5262 DS0026CN
2006 - DS00148

Abstract: AN761 AN1025 AN776 TC1016 TC1017 DS21813
Text: No file text available


Original
PDF TC1016/TC1017/TC1017R TC1016 TC1017/R OT-23 SC-70 TC1016/1017/1017R TC1016 DS21622B DS21622B* DS00148 AN761 AN1025 AN776 TC1017 DS21813
2002 - Microchip Product Line DS00148

Abstract: AN761 AN765 TC1300 TC1305 TC1306 TC1307 Microchip Product Line Card
Text: 300mA 2.7V to 6.0V 210mV 1 TC1305 150mA 2.7V to 6.0V 150mV 2 TC1306 , Incorporated. Printed in the U.S.A. All rights reserved. 1 /02 DS21610B *DS21610B* Microchip Technology


Original
PDF TC1300 300mA TC1305 TC1306 150mA TC1307 TC1300, TC1305, Microchip Product Line DS00148 AN761 AN765 Microchip Product Line Card
1997 - DS00026

Abstract: DS0026G-MIL DS0026H/883 MD7440 AN-76 DS0026 DS8830 1103 ram DS0026H DS0026G
Text: Subgrp Description MIL-STD-883, Method 5004 1 2 3 4 5 6 7 8A 8B 9 10 11 Quality Conformance Inspection MIL-STD-883, Method 5005 1 Static tests at Static tests at Static tests at , SHEET MNDS0026-X REV 0A0 (Absolute Maximum Ratings) (Note 1 ) V+ - V Differential 22V , Package Note 1 : Note 2: 8-Pin 14-Pin 8-Pin 12-Pin 130 C/W 110 C/W 230 C/W TBD Absolute , Output Voltage Vin = 2.4V, V+ - V- = 20V, Iol = 1mA 1 V 1 , 2, 3 Vol2 Logical "0"


Original
PDF MNDS0026-X DS00026 54S/74S DS8830 MD7440. DS0026 500pF 1000pF DS0026G-MIL DS0026H/883 MD7440 AN-76 1103 ram DS0026H DS0026G
Two Digit counter diagram

Abstract: 2 digit up counter block diagram 4-DIGIT counter with 7-SEGMENT DISPLAY Two Digit counter dual digit 7 segment display 9 pin configuration Two Digit up counter 4 Digit counter 4-digit counter DF215CJ Two Digit bcd counter diagram
Text: . Figure 1 shows the control output response. The DF215 either counts events or time intervals using a 50 , €¢ Can Resolve Up to 1 /10 Sec. Intervals • Time Base Can be Either a 50 or 60 Hz Line Frequency â , (Note 1 ) Input Voltage High 'll- lnput Current (Note 2) Input Voltage Low V|n High Input Voltage (Notes 1 , 2) V|i_ Low Input Voltage (Notes 1 , 2) V|H Input Voltage, Input Current High Vjl Low Input , Frequency in Contiruou s Cycle Mode Vss- 1 -5 VSS Vss-6 Vssr-» VSS MA ma TEST CONDITIONS UNLESS


OCR Scan
PDF DF215 Two Digit counter diagram 2 digit up counter block diagram 4-DIGIT counter with 7-SEGMENT DISPLAY Two Digit counter dual digit 7 segment display 9 pin configuration Two Digit up counter 4 Digit counter 4-digit counter DF215CJ Two Digit bcd counter diagram
1995 - DS0025CN

Abstract: TL 435 DM7440 DS0025C DS0025CH DS0025CJ DS0025CJ-8 DS8830 H08C J08A
Text: Drive Capability up to 1 5A Rep Rate 1 0 MHz into l 1000 pF Driven by DS8830 DM7440 ``Zero'' Quiescent Power Connection Diagrams Dual-In-Line Package Metal Can Package TL F 5852 ­ 1 Note , Clock Driver June 1992 Absolute Maximum Ratings (Note 1 ) Recommended Operating Conditions , C above 25 C 25V 100 mA 1 5A b 65 C to a 150 C 0 C to a 85 C 300 C Electrical , Swing IIN e 10 mA IOUT e 1 mA td ON Parameter Conditions Min (Note 4) 60 (Note 5


Original
PDF DS0025C DS8830 DM7440 14-lead DS0025CN TL 435 DS0025CH DS0025CJ DS0025CJ-8 H08C J08A
digital voltmeter with 8051

Abstract: UART to IEEE-488 NAT9914 application code pressure sensor interface with 8051 Iotech APP761 AN-761 labview maxim rs232 multiplexer 68HC11
Text: usually justifies its use; it is dramatically cheaper than large-scale testers. See Figure 1 . Figure 1 . Test systems range in complexity from (a) labor-intensive manual testing to (d) fully automatic


Original
PDF RS-232, rs232 MAX1457: MAX1458: MAX1459: MAX1615: MAX3232: MAX367: MAX865: AN761, digital voltmeter with 8051 UART to IEEE-488 NAT9914 application code pressure sensor interface with 8051 Iotech APP761 AN-761 labview maxim rs232 multiplexer 68HC11
1998 - 2b1q encoding

Abstract: feed pump automatic change over switch circuit di MV209 SK70720 SK70721 1N4001 AN76 b4703-b4706
Text: DESCRIPTIONS The IAFE is packaged in a 28-pin PLCC. Figure 1 shows the IAFE pin locations and Table 1 lists , designations and Table 2 lists signal descriptions. AD0 AD1 AGC_SET 3 2 1 28 27 26 TMAG RX_CK 4 TX_CK SER_CTL Figure 1 : SK70721 IAFE Pin Locations VCO_CK 5 25 , Assignment and Signal Descriptions Table 1 : SK70721 IAFE Pin Assignments/Signal Descriptions Group , Symbol Clock Input. 16 times the transmit symbol rate. 28 AGC_SET DO AGC Adjust Output. 1


Original
PDF SK70720 SK70721 4-TR28 external25 PDS-TSK70720/21-R2 2b1q encoding feed pump automatic change over switch circuit di MV209 SK70721 1N4001 AN76 b4703-b4706
1995 - ASIC for RF proximity Fuze

Abstract: XM773 fuze explosive squib RF proximity Fuze MIL-STD-1316 chip slapper M732A2 thermoelectric generator detonator FMCW Radar
Text: 1991 1 0 INTRODUCTION Fuzing mechanisms are devices used to ``safe'' ``arm'' and detonate , BASIC ELEMENTS OF A FUZE 3 1 Safing and Arming Fuze safing and arming (S A) is the primary concern in , and missiles 5 0 DESIGN CRITERIA FOR FUZES 5 1 Cost Fuze designs are constrained by several factors , a cost of $ 1 00 per fuze (the M42 cost about $ 35 each) the program would have cost $88 000 000 The program was terminated because no electronic solution could meet the $ 1 00 (including the battery


Original
PDF 20-3A ASIC for RF proximity Fuze XM773 fuze explosive squib RF proximity Fuze MIL-STD-1316 chip slapper M732A2 thermoelectric generator detonator FMCW Radar
1995 - DS88L12

Abstract: w1s dual transistor mm5704 lm325 Zener diode 10b3 MM5013 MM1103 DS0056 ds3674 MA2805
Text: IIN e 10 mA IOUT e 1 mA Vb a 1 0 V 17 mA Value Units 75 ns tOFF CIN e 0 , mA IOUT e 1 mA Vb a On Supply Current (V a ) IIN e 10 mA 28 05 V mA TRI-STATE , at 1 39W) Constructed with a special copper lead frame this package is recommended for medium size , ) The TO-8 (``G'') package is rated at 1 5W still air (derate at 100 C W above 25 C) and 2 3W with , clock driver is usually limited first by internal power dissipation There are four factors 1 Package


Original
PDF
P2A2

Abstract: IDT74FCT244
Text: compatible l/O's Single 5V (±10%) power supply PIN CONFIGURATION* 1 1 GND D(0) 0 (2 ) 1 Dm D(6) WE(i) C3o) Dm D(10) P1A(0) P1 A(2) P1A(4) P1LE1 P1A(6] P1A(8) P1 A(io) P1A(i2) P10E( 1 ) D(12) D(14) D(16) D , ) D( 1 ] D(3) D(5) D(7) OE(i) Vcc D<9) D(11) P1A( 1 ) P1A(3) P1A(5) P1LE2 P1A(7) P1A(9) P 1A< 11 ) P 1 A ( 1 3 ) p io e < 2) D(13) D(15) D(17) D(19) O E (2 ) GND D(21) D(23) D(25) P2A(0) P2A(2) P2A(4) P2LE1 P2A(6) P2A(8) P2A(10) P2A(12) P20E( 1 ) D(46) D(44) D (42) D(40) 120 119 118 117 116


OCR Scan
PDF IDT79R3000 IDT7MB6049 240K-Byte 12MHz, 20MHz, 25MHz, 33MHz IDT79R3000 120-pin P2A2 IDT74FCT244
Siliconix VMOS

Abstract: vmos vmos fet Siliconix Application Note AN76-3 VN46AF mosfet vn66af VMOS Transistor CD4011 VN66AF
Text: design of the circuit. +25 V A Typical VMOS Switching Circuit Figure 1 Dave Hoffman January 1979 When , time is simply trortf=2.2 • ROUT • Qss ( 1 ) where ROUTis ,;he output impedance of the drive circuit , % to 90% rise or fall time for the circuit shown in Figure 1 using Equation 1 the rise time is equal to , voltage must be considered in addition to required rise and fall time requirements. REFERENCES 1 . A. Evans


OCR Scan
PDF AN79-3. AN76-3. Siliconix VMOS vmos vmos fet Siliconix Application Note AN76-3 VN46AF mosfet vn66af VMOS Transistor CD4011 VN66AF
2001 - functional DIAGRAM 7404

Abstract: AN-76 DS0026 DS0026CN DM7440 DS8830 MM5262 circuit diagram of 7404 not 7404 ttl 7404 schematic
Text: DS0026 Absolute Maximum Ratings Operating Ratings (Note 1 ) If Military/Aerospace specified , ) Symbol Parameter Conditions Min Typ 2 1.5 Max Units Logic " 1 " Input Voltage V- = 0V IIH Logic " 1 " Input Current - VIN - V = 2.4V 10 15 VIL Logic "0" , -10 µA VOL Logic " 1 " Output Voltage VIN - V- = 2.4V, IOL = 1 mA V-+0.7 V-+1.0 V VOH Logic "0" Output Voltage VIN - V = 0.4V, VSS V + 1.0V IOH = - 1 mA ICC(ON) "ON"


Original
PDF DS0026 DS0026 54S/74S DS8830 DM7440. functional DIAGRAM 7404 AN-76 DS0026CN DM7440 MM5262 circuit diagram of 7404 not 7404 ttl 7404 schematic
2000 - TTL 7404

Abstract: pin diagram of 7404 circuit diagram of 7404 7404 TTL CIRCUIT DIAGRAM 7404 connection DIAGRAM 7404 datasheet 7404 TTL 7404 national semiconductor DS0026 DS0026CN
Text: DS0026 Absolute Maximum Ratings (Note 1 ) Operating Ratings If Military/Aerospace specified , Min Typ 2 - Max Units 1.5 VIH Logic " 1 " Input Voltage V = 0V IIH Logic " 1 " Input Current VIN - V- = 2.4V 10 15 mA VIL Logic "0" Input Voltage V- = , Current VIN - V = 0V VOL Logic " 1 " Output Voltage VIN - V- = 2.4V, IOL = 1 mA VOH Logic "0" Output Voltage VIN - V- = 0.4V, VSS V+ + 1.0V IOH = - 1 mA + - V+ - 1.0 V V


Original
PDF DS0026 DS0026 54S/74S DS8830 DM7440. TTL 7404 pin diagram of 7404 circuit diagram of 7404 7404 TTL CIRCUIT DIAGRAM 7404 connection DIAGRAM 7404 datasheet 7404 TTL 7404 national semiconductor DS0026CN
2000 - DS0026CN

Abstract: DS0026 DS005853-8 7404 is 7404 not MM5262 AN-76 DM7440 DS8830 connection DIAGRAM 7404
Text: DS0026 Absolute Maximum Ratings (Note 1 ) Maximum Power Dissipation* at TA = 25°C Operating , ) Symbol Parameter Conditions Logic " 1 " Input Voltage V- = 0V IIH Logic " 1 " Input Current VIL Logic "0" Input Voltage Logic "0" Input Current VOL Logic " 1 " Output Voltage VOH , 10 0.6 V -10 µA V-+0.7 V+ - 1.0 0.4 -3 VIN - V- = 0V VIN - V- = 2.4V, IOL = 1 mA VIN - V- = 0.4V, VSS V+ + 1.0V IOH = - 1 mA V+ - V- = 20V, VIN - V- = 2.4V V-+1.0 V V


Original
PDF DS0026 DS0026 54S/74S DS8830 DM7440. DS0026CN DS005853-8 7404 is 7404 not MM5262 AN-76 DM7440 connection DIAGRAM 7404
2005 - LTC3462

Abstract: rtb4 LTC3417 AN76 DMMT5551 LT3462 LTC1628 LTC2927 LTC3728 DC to DC step down converters 18V to 0V
Text: point-of-load as shown in Figure 1 . By selecting a few resistors and a capacitor, the supplies are configured , LTC2927 VIN IN RAMPBUF RTB1 IN LTC1628 FB FB = 0.8V OUT 5V SLAVE 1 RAMPBUF , LTC3728 GND RFA2 20k RFB2 63.4k RTA4 GND RFA4 20k RFB4 63.4k Figure 1 . Typical , signal to be tracked as shown in Figure 1 . Examples MASTER SLAVE1 SLAVE2 a. Offset tracking , tracking system. The schematic in Figure 1 uses an LTC1628 dual synchronous stepdown converter to produce


Original
PDF LTC3417 LTC3462 rtb4 AN76 DMMT5551 LT3462 LTC1628 LTC2927 LTC3728 DC to DC step down converters 18V to 0V
2005 - LTC3417

Abstract: DUS-5121-1R5R DUS-5121-2R2R AN76 C1206C106K4PAC C1210C226K8PAC LT3462 LTC2927
Text: board real estate, as shown in Figure 1 . High Efficiency Dual Output A typical application for the , , the frequency of operation is 1MHz. Figure 1 . Dual buck regulator conserves space Easy to , Burst Mode OPERATION PULSE SKIP FORCED CONTINUOUS 70 65 60 0.001 0.01 0.1 1 85 , CURRENT (A) 0.01 0.1 1 LOAD CURRENT (A) Figure 3. 1.4A VOUT1 Efficiency. Figure 4. 800mA


Original
PDF 800mA, LTC3417 DUS-5121-1R5R DUS-5121-2R2R AN76 C1206C106K4PAC C1210C226K8PAC LT3462 LTC2927
2002 - DS0026

Abstract: circuit diagram of 7404 DS0026CN 7404 application notes TTL 7404 fall time TTL 7404 national semiconductor logic diagram of 7404 CIRCUIT DIAGRAM 7404 AN-76 LOGIC 7404
Text: Ratings (Note 1 ) If Military/Aerospace specified devices are required, please contact the National , Max Units 15 mA VIH Logic " 1 " Input Voltage V- = 0V IIH Logic " 1 " Input , Logic "0" Input Current VIN - V- = 0V -3 -10 µA VOL Logic " 1 " Output Voltage VIN - V- = 2.4V, IOL = 1 mA V-+0.7 V-+1.0 V VOH Logic "0" Output Voltage VIN - V- = 0.4V, VSS V+ + 1.0V IOH = - 1 mA ICC(ON) "ON" Supply Current (one side on) V+ - V- = 20V, VIN -


Original
PDF DS0026 DS0026 54S/74S DS8830 DM7440. circuit diagram of 7404 DS0026CN 7404 application notes TTL 7404 fall time TTL 7404 national semiconductor logic diagram of 7404 CIRCUIT DIAGRAM 7404 AN-76 LOGIC 7404
Supplyframe Tracking Pixel