CD4000
Abstract: CD4000 application notes 54HC 74ALS 74HC 74LS AN-389 C1995 cd4000 logic devices CD4000 national series
Text: National Semiconductor Application Note 389 Roger Kozlowski January 1985 The application of such high-speed CMOS-logic circuits as the 54HC 74HC family as compared with CD4000 metal-gate logic requires special attention to pc-board design to minimize conducted and radiated noise
|
Original
|
PDF
|
CD4000
CD4000 application notes
54HC
74ALS
74HC
74LS
AN-389
C1995
cd4000 logic devices
CD4000 national series
|
adjustable zero span circuit with lm358
Abstract: what is the drawback of operating system LM358 op amp AN-284 DAC0830 DAC1230 LM329 LM336 LM358 LM385
Text: National Semiconductor Application Note 284 Tim Regan September 1981 CMOS data acquisition and conversion products are becoming the ideal choice for microprocessor controlled analog systems. The use of CMOS allows the addition of more digital logic functionality on to the same die as the analog
|
Original
|
PDF
|
12-bit
16-bit
adjustable zero span circuit with lm358
what is the drawback of operating system
LM358 op amp
AN-284
DAC0830
DAC1230
LM329
LM336
LM358
LM385
|
adjustable zero span circuit with lm358
Abstract: what is the drawback of operating system LM358 op amp DAC1230 AN-284 C1995 DAC0830 LM329 LM336 LM358
Text: National Semiconductor Application Note 284 Tim Regan September 1981 CMOS data acquisition and conversion products are becoming the ideal choice for microprocessor controlled analog systems The use of CMOS allows the addition of more digital logic functionality on to the same die as the analog
|
Original
|
PDF
|
12-bit
16-bit
adjustable zero span circuit with lm358
what is the drawback of operating system
LM358 op amp
DAC1230
AN-284
C1995
DAC0830
LM329
LM336
LM358
|
DS1776
Abstract: AN-725 74XX240 TTL family
Text: PI Bus PI Bus National Semiconductor Application Note 725 Joe Wert September 1991 HISTORY Throughout the 70’s and early 80’s the typical backplane was driven by standard TTL logic parts with tristateable outputs such as 54/74XX240 and 245. For design purposes
|
Original
|
PDF
|
54/74XX240
AN-725
an011071
DS1776
AN-725
74XX240
TTL family
|
NSB5881
Abstract: MICROPROCESSOR Z80 7segment NSB3881 NSN581 9 digit display NSA1298 NSB7881 MM74C917 MM74C912 NSB3881 equivalent NSN381
Text: National Semiconductor Application Note 257 Larry Wakeman May 1981 I INTRODUCTION The MM74C911 MM74C912 and MM74C917 are CMOS display controllers that control multiplexing of 8-segment LED displays These devices each have an on-chip multiplex oscillator and associated logic to easily implement multi-digit displays with minimal additional hardware These
|
Original
|
PDF
|
MM74C911
MM74C912
MM74C917
MM74C912
NSB5881
MICROPROCESSOR Z80 7segment
NSB3881
NSN581
9 digit display NSA1298
NSB7881
NSB3881 equivalent
NSN381
|
DS1776
Abstract: AN-725 can transceiver lumped capacitance
Text: PI Bus PI Bus National Semiconductor Application Note 725 Joe Wert September 1991 HISTORY Throughout the 70’s and early 80’s the typical backplane was driven by standard TTL logic parts with tristateable outputs such as 54/74XX240 and 245. For design purposes
|
Original
|
PDF
|
54/74XX240
DS1776
AN-725
can transceiver lumped capacitance
|
DS1776
Abstract: AN-725
Text: National Semiconductor Application Note 725 Joe Wert September 1991 HISTORY Throughout the 70’s and early 80’s the typical backplane was driven by standard TTL logic parts with tristateable outputs such as 54/74XX240 and 245. For design purposes these busses were modeled as lumped capacitances and
|
Original
|
PDF
|
54/74XX240
an011071
DS1776
AN-725
|
DS1776
Abstract: 74XX240 AN-725 C1996 DS3662
Text: National Semiconductor Application Note 725 Joe Wert February 1996 HISTORY Throughout the 70’s and early 80’s the typical backplane was driven by standard TTL logic parts with tristateable outputs such as 54 74XX240 and 245 For design purposes these busses were modeled as lumped capacitances and
|
Original
|
PDF
|
74XX240
DS1776
AN-725
C1996
DS3662
|
simple Binary counter
Abstract: ADC0801 C1995 LB-53 72-clock
Text: National Semiconductor Linear Brief 53 Tim Regan July 1981 In many data acquisition applications it is necessary to have an A to D converter operate as its maximum conversion rate The controlling microprocessor would then be able to read the most current input data at any point in time as
|
Original
|
PDF
|
|
LB-53
Abstract: simple Binary counter ADC0801
Text: National Semiconductor Linear Brief 53 July 1981 In many data acquisition applications it is necessary to have an A to D converter operate as its maximum conversion rate. The controlling microprocessor would then be able to read the most current input data at any point in time as required
|
Original
|
PDF
|
|
162b5
Abstract: national semiconductor MDAC AN-277 C1995 DAC1000 DAC1001 DAC1002 DAC1006 DAC1007 DAC1008
Text: National Semiconductor Application Note 277 James B Cecil July 1981 A second generation of the popular MDAC or multiplying DAC is now available which has been designed to provide an easy interface to microprocessor systems These new MICRO-DAC products are low power drain CMOS converters which typically require only 0 5 mA supply current (2 mA
|
Original
|
PDF
|
|
ttl to cmos converter
Abstract: 8085 microprocessor Datasheet AN-275 C1995 DAC1000 DAC1001 DAC1002 DAC1006 DAC1007 DAC1008
Text: National Semiconductor Application Note 275 James B Cecil July 1981 With double buffering 8 9 and 10-bit multiplying units are useful for microprocessor control of gain and attenuation A new family of complementary MOS multiplying digital-toanalog converters has arrived on the scene and promises to
|
Original
|
PDF
|
10-bit
ttl to cmos converter
8085 microprocessor Datasheet
AN-275
C1995
DAC1000
DAC1001
DAC1002
DAC1006
DAC1007
DAC1008
|
National Semiconductor DS8641
Abstract: AN-259 DS3662 DS864
Text: National Semiconductor Application Note 259 R. V. Balakrishnan April 1981 I. INTRODUCTION A single ended Bus is an unbalanced Data Transmission medium, which is timeshared by several system elements. Like any unbalanced system, it is highly susceptible to
|
Original
|
PDF
|
|
AN-259
Abstract: DS3662
Text: National Semiconductor Application Note 259 R. V. Balakrishnan April 1981 I. INTRODUCTION A single ended Bus is an unbalanced Data Transmission medium, which is timeshared by several system elements. Like any unbalanced system, it is highly susceptible to
|
Original
|
PDF
|
|
|
DS3662
Abstract: AN-259 C1995 DS8641 DS8834 Trapezoidal Capacitors
Text: DS3662 National Semiconductor Application Note 259 R V Balakrishnan April 1981 DS3662 The Bus Optimizer external to the Bus Additional noise may be generated due to reflections at imperfect terminations Bus Receviers are designed to respond to high speed transitions and to provide low propagation delays Unfortunately their fast response results in high noise sensitivity The
|
Original
|
PDF
|
DS3662
DS3662
AN-259
C1995
DS8641
DS8834
Trapezoidal Capacitors
|
Sine Wave Generation Techniques
Abstract: AN-269 C1995 DAC1000 DAC1020 LM329 tellabs logarithmic amp
Text: National Semiconductor Application Note 269 September 1981 The 4-quadrant multiplying CMOS D to A converter DAC is among the most useful components available to the circuit designer Because CMOS DACs allow a digital word to operate on an analog input or vice versa the output can represent a sophisticated function Unlike most DAC units
|
Original
|
PDF
|
|
AN274
Abstract: AN-274 NS LM358 LM324 LM339 LM358 LM389 LM3900 LM392 LM393
Text: National Semiconductor Application Note 274 July 1981 With a span accommodation down to 180 mV, this 8-bit unit can also replace a 12-bit analog-to-digital device in some applications. Compatibility Criteria Differ To help meet the rising demand for easier interfacing between analog-to-digital converters and microprocessors, the
|
Original
|
PDF
|
12-bit
ADC0801-05
20-pin
AN274
AN-274
NS LM358
LM324
LM339
LM358
LM389
LM3900
LM392
LM393
|
INS8073
Abstract: ADC0804 BLOCK DIAGRAM ADC0804 PIN DIAGRAM ADC0808 circuit with full details DM74LS138 Application INS8070 ADC0808 ADC0808 driver circuit with pin details ADC0804 deutsch dt 04 p2
Text: National Semiconductor Application Note 280 November 1981 Abstract This application note describes techniques for interfacing parallel I O and serial I O 8-bit A D converters to the INS8070 series of microprocessors A detailed hardware and software interface example is provided for each
|
Original
|
PDF
|
INS8070
INS8073
ADC0804
INS8072
ADC0833
16-channel
ADC0831
ADC0804 BLOCK DIAGRAM
ADC0804 PIN DIAGRAM
ADC0808 circuit with full details
DM74LS138 Application
ADC0808
ADC0808 driver circuit with pin details
deutsch dt 04 p2
|
8080 analog to digital converter
Abstract: LM393 line follower working of ic lm339 AN-274 op code for digital clock using microprocessor 80 TL 8721 adc0801 linear devices C1995 8721 LM358
Text: National Semiconductor Application Note 274 July 1981 With a span accommodation down to 180 mV this 8-bit unit can also replace a 12-bit analog-to-digital device in some applications To help meet the rising demand for easier interfacing between analog-to-digital converters and microprocessors the
|
Original
|
PDF
|
12-bit
ADC0801-05
20-pin
8080 analog to digital converter
LM393 line follower
working of ic lm339
AN-274
op code for digital clock using microprocessor 80
TL 8721
adc0801 linear devices
C1995
8721
LM358
|
ADC0804
Abstract: INS8243 adc0804 national semiconductor INS8048 AN-281 only A to D Converters ADC0804 adc0804 datasheet ADC0801 ADC0833 C1995
Text: National Semiconductor Application Note 281 Daniel Hagerty November 1981 Abstract This application note describes techniques for interfacing National Semiconductor’s ADC0833 serial I O and ADC0804 parallel I O A D converters to the INS8048 family of microprocessors A hardware and software interface example is provided for each A D along with a brief
|
Original
|
PDF
|
ADC0833
ADC0804
INS8048
INS8048
INS8243
adc0804 national semiconductor
AN-281
only A to D Converters ADC0804
adc0804 datasheet
ADC0801
C1995
|
dac1208
Abstract: LF351 mi op-amp VOLTAGE TO CURRENT CONVERTER lm319 triangle LM11 national thumbwheel Potentiometers DAC0830 DAC0831 DAC0832 DAC1000 DAC1001
Text: National Semiconductor Application Note 271 Tim Regan September 1981 Most microprocessor based systems designers will find that the new CMOS MICRO-DAC are among the most interesting and versatile devices they will include in their system The availability of these devices opens a vast new area of
|
Original
|
PDF
|
|
linear application handbooks national semiconductor
Abstract: F100K ECL Users Handbook JEP133 bipolar cots radiation radiation hard PLL national semiconductor logic 1981 cmos cots radiation lvds pioneer linear application handbook national semiconductor AN-926
Text: N Total Ionizing Dose Radiation Data krads, typical 10 30 50 Analog CMOS Op Amps Bipolar Op Amps Comlinear Comparators Data Acquisition References Regulators Low Dropout Voltage Regulators Motor Drivers Phased Lock Loops (PLL) ASIC CMOS Gate Array (.65µm)
|
Original
|
PDF
|
CD4K/54C
linear application handbooks national semiconductor
F100K ECL Users Handbook
JEP133
bipolar cots radiation
radiation hard PLL
national semiconductor logic 1981
cmos cots radiation
lvds pioneer
linear application handbook national semiconductor
AN-926
|
simple LM324 COMPARATOR CIRCUIT
Abstract: lm356 ADC0816 PIN DIAGRAM z80-pio LM356B data sheet multiplexer cd4051 lm324 dc to ac inverters diagram ADC0809 internal circuit diagram free d z80pio 2 bit magnitude comparator using Integrated Chips
Text: National Semiconductor Application Note 258 Larry Wakeman January 1981 I Introduction The ADC0816 and ADC0817 CMOS 16-Channel Data Acquisition devices are selectable multi-input 8-bit A D converters In addition to a standard 8-bit successive approximation type A D converter these devices contain a 16
|
Original
|
PDF
|
ADC0816
ADC0817
16-Channel
ADC0808
ADC0809
ADC0809
simple LM324 COMPARATOR CIRCUIT
lm356
ADC0816 PIN DIAGRAM
z80-pio
LM356B
data sheet multiplexer cd4051
lm324 dc to ac inverters diagram
ADC0809 internal circuit diagram free d
z80pio
2 bit magnitude comparator using Integrated Chips
|
TTL LS 7400
Abstract: ttl 7400 marking WV1 transistor TTL 7400 national semiconductor 74H Logic Family Specifications IC 7400 nand gate MIL-STD-806B LS TTL family characteristics transistor f259 internal structure 74LS00 nand gate
Text: Introduction National Semiconductor Introduction FAST, an acronymn for Fairchild Advanced Schottky TTL, is a high-speed, low-power logic family that achieves speeds typically 30% faster than the Schottky family with a corre sponding power reduction of approximately 75%. It is fabri
|
OCR Scan
|
PDF
|
|