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INA132U/2K5 INA132U/2K5 ECAD Model Texas Instruments Low Power, Single-Supply Difference Amplifier 8-SOIC
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Differences between Philips 4-channel SC16C devices and Philips low power SC16CxxB devices datasheet (1)

Part ECAD Model Manufacturer Description Type PDF
Differences between Philips 4-channel SC16C devices and Philips low power SC16CxxB devices Differences between Philips 4-channel SC16C devices and Philips low power SC16CxxB devices ECAD Model NXP Semiconductors Differences between Philips 4-channel SC16C devices and Philips low power SC16CxxB devices Original PDF

Differences between Philips 4-channel SC16C devices and Philips low power SC16CxxB devices Datasheets Context Search

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2004 - 13348

Abstract: AN10312 SC16C554 SC16C654B SC16C654 SC16C554DB SC16C554D SC16C554B ISR 417.50 25 P SC16Cxxx
Text: AN10312 Differences between Philips 4- channel SC16C devices and Philips low power SC16CxxxB , details the differences between Philips four-channel SC16Cxxx devices and Philips low power SC16CxxxB , AN10312 Philips Semiconductors Differences between 4- channel SC16C and SC16CxxxB devices 6 , between 4- channel SC16C and SC16CxxxB devices 1. Differences between SC16C554 and SC16C554B, SC16C554D , 2004 3 of 9 AN10312 Philips Semiconductors Differences between 4- channel SC16C and


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PDF AN10312 SC16C SC16CxxxB RS-232 SC16Cxxx SC16C654B SC16C754B. 13348 AN10312 SC16C554 SC16C654 SC16C554DB SC16C554D SC16C554B ISR 417.50 25 P
2004 - SC16C752B

Abstract: Differences between SC16C550 and SC16C550B SC16C750B SC16C750 SC16C650B SC16C550B SC16C550 SC16C2550 SC16C2550B ISR 417.50 25 P
Text: AN10257 Differences between Philips SC16C devices and Philips low power SC16CxxxB devices Rev , Philips Semiconductors Differences between SC16C and low power SC16CxxxB devices 4. Differences , Philips Semiconductors Differences between SC16C and low power SC16CxxxB devices 6. Differences , Philips Semiconductors Differences between SC16C and low power SC16CxxxB devices 8. What you need to , process. AN10257 Philips Semiconductors Differences between SC16C and low power SC16CxxxB


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PDF AN10257 SC16C SC16CxxxB SC16Cxxx SC16CxxxB SC16C752B Differences between SC16C550 and SC16C550B SC16C750B SC16C750 SC16C650B SC16C550B SC16C550 SC16C2550 SC16C2550B ISR 417.50 25 P
2003 - 16C2550

Abstract: SC28x TL16C752 TL16C554 ST16C650 ST16C554 SC28L92 SC16C752 SC16C654 16C450
Text: provides a comparison between the Philips Industrial UARTs and Philips SC16C devices , allowing the , Semiconductors Differences between Philips Industrial UARTs* and Philips SC16Cxxx devices Feature , Philips UART (Universal Asynchronous Receiver Transmitter) devices . These products can provide all your , competitive pricing advantage, and with its own fab, Philips can meet your SC16C650 · · · · · · · · , Detection Power Down Mode Clock Frequency Using On-Chip Oscillator and External Crystal TTL Input Levels


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PDF SC16C650 ST16C650 16C450 SC16Cxx SC28xxx, SC26xxx, SC28Lxxx 16C2550 SC28x TL16C752 TL16C554 ST16C650 ST16C554 SC28L92 SC16C752 SC16C654
interfacing 8051 with bluetooth modem

Abstract: NXP Bluetooth IC scc26c92a1a ic 8051 serial infrared tx SCC2691AC1A28 scc26c92 SC28L198 SC1625 AN10353 AN10307
Text: node AN10257 Differences between Philips SC16C devices and Philips low power SC16CxxxB devices AN10307 UART to Bluetooth interfacing AN10312 Differences between Philips 4- channel SC16C devices and Philips low power SC16CxxxB devices AN10319 8051 microcontroller to UART serial interface evaluation , between NXP industrial UARTs* and NXP SC16CxxxB devices Feature Industrial SC16CxxxB Supply , between processor D and transceiver } Servers and concentrators Deepest FIFO: 256 Bytes SC28L202


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PDF SC16CxxxB SC28L202 WLAN/802 interfacing 8051 with bluetooth modem NXP Bluetooth IC scc26c92a1a ic 8051 serial infrared tx SCC2691AC1A28 scc26c92 SC28L198 SC1625 AN10353 AN10307
2005 - pnx8316

Abstract: tda10046 china car DVD player program ic latest research topics in microcontroller technology PNX83 industrial automation using cellphone tda10046 tuner nexus s smartmx TDA8920B PCF5213
Text: distribution channel , Philips makes it easier for manufactures to access the design and technical back-up , , the Customer Partnership Center (CPC) acts as a regional nexus for communication between Philips and , partnership between Arrow and Philips , small to medium companies around the world are able to exploit Philips , deliver high performance and low power consumption from the smallest footprint.They boast an impressive , (SiP) solution. Through the close partnership between WPG and Philips , the WPG design team has


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2012 - xr20m1172il32-f

Abstract: HVQFN32 Sc2698 SC16C654BIBM,128 SCC2681AC1A44 SC16C752B SCC2691AC1A28 SC28L198
Text: musical devices and stage equipment, data exchange and control of gambling equipment, toys, MP3, DTV, STB , audio equipment from central unit, light and heating control devices in homes or offices, security sensors and surveillance devices } Robotics ndustrial control of CNC equipment, remote sensor , are drop-in compatible with industry-standard devices and offer added features without a price , devices . Many are available in tiny HVQFN and TFBGA packages that reduce PCB space by as much as 70


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PDF SC16C85xS WLAN/802 SC28L202 xr20m1172il32-f HVQFN32 Sc2698 SC16C654BIBM,128 SCC2681AC1A44 SC16C752B SCC2691AC1A28 SC28L198
1997 - VGA VESA DDC2

Abstract: 9398 393 40011 24LC21 AN96039 PCB2421
Text: :.7 5 Differences between 24LC21 by MICROCHIP and PCB2421 by PHILIPS , between the Philips PCB2421 Vesa EEprom and the Microchip 24LC21. - A short introduction of DDC1 mode is , between host and device in the DDC1 mode. The channel on VCLK (pin 7) is the transmission clock. The , and PCB2421 by PHILIPS There shaded pins have different functions on the two devices . The , Electronics Standards Association) 2 - The I C-bus and how to use it, 1995 update, by PHILIPS , NR. 9398 393


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PDF PCB2421 AN96039 PCD2421 24LC21 PCB2421 24LC21 sup\2421appl VGA VESA DDC2 9398 393 40011 AN96039
2002 - XR68C681

Abstract: 40CDIP SCC68692 CRA 4 bit motorola power supply
Text: 's XR68C681 with Philips 's SCC68692. These devices are very similar, with a few hardware, firmware-related and bus timing differences . 1.1 HARDWARE · The Philips SCC68692 and Exar XR68C681 are both available , Not Used 1 1 0 0 Channel A: Set Standby ( Low Power ) Mode Disable Timeout Mode 1 , DAN122 1.3 SUMMARY OF DIFFERENCES In the table below, some differences between the XR68C681 and SCC68692 are summarized. TABLE 2: DIFFERENCES BETWEEN EXAR 'S XR68C681 WITH PHILIPS 'S SCC68692


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PDF DAN122 XR68C681 SCC68692 SCC68692. SCC68692 44-pin 40-pin 40-pin 40CDIP CRA 4 bit motorola power supply
2002 - P82B96

Abstract: PCA9501 PCA9543 PCA9554 PCA9555 PCA9561 PCF8574 PCF8582C-2 pcf8574 Application Note
Text: power to the evaluation board devices and LEDs. Operates from 100 to 240 volts at 47 to 66 Hz Edison , the GPIOs and /or the LED Blinker devices · Learn differences in programming and blinking LEDs using , addresses through the PCA9543 two channel switch used as multiplexer and for voltage translation between , (PC) to easily test and demonstrate new I2C devices in a platform that allows multiple operations to , general purpose inputs and outputs. · PCF8582C-2 - To show 2Kbit EEPROMs and have two identical devices


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PDF PCA9501--To PCF8574 PCA9501 P82B96 PCA9543 PCA9554 PCA9555 PCA9561 PCF8582C-2 pcf8574 Application Note
2002 - pcf8574 Application Note

Abstract: P82B96 PCA9501 PCA9543 PCA9554 PCA9561 PCF8574 PCF8582C-2
Text: Power Supply-provides power to the evaluation board devices and LEDs. Operates from 100 to 240 volts , (PC) to easily test and demonstrate new I2C devices in a platform that allows multiple operations to , general purpose inputs and outputs. · PCF8582C-2 - To show 2Kbit EEPROMs and have two identical devices to multiplex with the PCA9543. · LM75A-To show temperature sensors and have two identical devices , the P82B96 can be used to send both I2C clock, data signals and power supply over USB cables or


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PDF 002-1A 002-1A PCA9501--To PCF8574 PCA950will pcf8574 Application Note P82B96 PCA9501 PCA9543 PCA9554 PCA9561 PCF8582C-2
2004 - PC16C550

Abstract: TL16C550 SC16C752B TL16C752 TL16C450 ST16C550 ST16C450 SC28L202 SC16C652B SC28x
Text: Differences between Philips Industrial UARTs* and Philips SC16CxxxB devices Feature Industrial Supply , offer a competitive pricing advantage, and with its own fabs, Philips can meet your demands in a short time. The table in the back provides a comparison between the Philips Industrial UARTs and Philips SC16CxxxB devices , allowing the designer to choose the most suitable solution for a given , enhanced Philips UART (Universal Asynchronous Receiver Transmitter) devices . These products can provide


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PDF SC16CxxxB SC16C550B SC16C752B PC16C550 TL16C550 SC16C752B TL16C752 TL16C450 ST16C550 ST16C450 SC28L202 SC16C652B SC28x
2002 - SC28C94

Abstract: XR16L784 SC28L194 16C550
Text: PHILIPS SC28C94 AND SC28L194 Author: PY 1.0 INTRODUCTION This application note describes the hardware and firmware-related differences between Exar's XR16L784 with the Philips SC28C94 and SC28L194. The Exar and Philips QUARTs are very different devices . 1.1 HARDWARE DIFFERENCES · The XR16L784 is , channel of the XR16L784 are compatible to industry standard 16C550 while the registers in the Philips , XR16L784, the global registers are separated from the individual channel registers. But in the SC28C94 and


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PDF DAN125 XR16L784 SC28C94 SC28L194 SC28L194. 64-pin SC28L194 16C550
2002 - XR16L788

Abstract: SC28L198 16C550 SCC2698B
Text: PHILIPS SCC2698B AND SC28L198 Author: PY 1.0 INTRODUCTION This application note describes the hardware and firmware-related differences between Exar's XR16L788 with the Philips SCC2698B and SC28L198. The Exar and Philips QUARTs are very different devices . 1.1 HARDWARE DIFFERENCES · The XR16L788 is , register of all channels. In the SCC2698B and SC28L198, it is necessary to initialize each channel , manipulation. This feature is not available in the Philips Octal UARTs. · For wireless and portable


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PDF DAN126 XR16L788 SCC2698B SC28L198 SC28L198. 100-pin SC28L198 16C550
PCD5070

Abstract: baseband GSM BTS PCD5071 GSM signal processing block msc in gsm msc mobile switching center GSM software defined radio PCF5081 PCF5082 gsm baseband
Text: and application programs. These are the main differences between both the PCF5081 and the PCF5082 , partitioning between software and hardware for the different processing tasks has been implemented as a trade-off between dedicated hardware and software to provide fast execution with an optimal level of , . Active low and edge triggered. If low , the related interrupt is requested. It will be acknowledged if the , channel coder/decoder is capable of handling the speech Traffic Channel (TCH), the Fast and the Slow


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PDF 711DaEti PCF5081/PCF5082 PCF5081 PCF5082 PCF5081 16-bit PCD5070 baseband GSM BTS PCD5071 GSM signal processing block msc in gsm msc mobile switching center GSM software defined radio gsm baseband
PCD5070

Abstract: baseband GSM BTS msc in gsm gsm baseband SOI RF transceiver PCF5082 PCF5081 PCD5071 msc mobile switching center PHILIPS GSM I Q
Text: memories for both user-data and application programs. These are the main differences between both the , Application Specific Hardware (ASH) to speed up execution and overall performance. This partitioning between software and hardware for the different processing tasks has been implemented as a trade-off between , flag is cleared. IRQn[2:1] I External interrupt request signals. Active low and edge triggered. If low , Channel encoder/decoder - Speech encoder/decoder - Encryption/Decryption - Initial synchronization and


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PDF bbS3t154 PCF5081/PCF5082 PCF5081 PCF5082 PCF5081 16-bit PCD5070 baseband GSM BTS msc in gsm gsm baseband SOI RF transceiver PCD5071 msc mobile switching center PHILIPS GSM I Q
2001 - ASIC R2

Abstract: PTN2111 AN259 PTN1111
Text: contributors to variations in propagation delay of silicon devices are power supply and temperature variations , distribution devices Kristina Avrionova Philips Semiconductors 2001 Oct 16 Philips Semiconductors Application note Applications and performance of PTN1111 and PTN2111 clock distribution devices AN259 , introduced a demand for high-speed, low skew clock generation and distribution networks. Clocks are used to drive processors or to synchronize the data between system components, and consequently, clock


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PDF AN259 PTN1111 PTN2111 PTN2111 PTN1111 ASIC R2 AN259
2001 - ASIC R2

Abstract: PTN1111 PTN2111 AN259
Text: contributors to variations in propagation delay of silicon devices are power supply and temperature variations , distribution devices Kristina Avrionova Philips Semiconductors 2001 Oct 16 Philips Semiconductors Application note Applications and performance of PTN1111 and PTN2111 clock distribution devices AN259 , introduced a demand for high-speed, low skew clock generation and distribution networks. Clocks are used to drive processors or to synchronize the data between system components, and consequently, clock


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PDF AN259 PTN1111 PTN2111 PTN2111 PTN1111 ASIC R2 AN259
2004 - TDA8566TH

Abstract: AN10327 TDA8566Q TDA8571J DBS23P TDA8571 design of capacitor input filters class AB hf bipolar TDA856x application note tda8560q
Text: automotive applications such as car radios, boosters and multimedia applications. The differences between , decoupling capacitor of about 100nF . 220nF nearby the device, between each Vp and power ground pin When , through the power ground tracks) The next drawing shows an example between a proper lay-out and a poor , AN10327 TDA856x and TDA8571J power amplifiers Rev. 01.00 - 15 October 2004 Application note , TDA856x series and the TDA8571J AN10327 Philips Semiconductors TDA856x ,TDA8571J Revision


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PDF AN10327 TDA856x TDA8571J TDA8571J TDA856x Ele01 TDA8566TH AN10327 TDA8566Q DBS23P TDA8571 design of capacitor input filters class AB hf bipolar application note tda8560q
TDA8601

Abstract: TDA8601T
Text: delay between input and output and delay differences are illustrated in Fig.6. Inputs 1 and 2 are either , parallel connection of several devices . A HIGH level on SEL (pin 5) selects the video inputs of Channel 2 , Copyrighted By Its Respective Manufacturer Philips Semiconductors Product specification RGB/YUV and fast , US Fast blanking inputs (pins 14 and 15) V|h HIGH level input voltage 0.9 - Vp V V|L LOW , By Its Respective Manufacturer Philips Semiconductors Product specification RGB/YUV and fast


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PDF TDA8601 7MS77 TDA8601 TDA8601T
1999 - various PWM techniques

Abstract: PWM 003 Specification Quartz Crystals 12Mhz Philips 87C752 8XC752 87C752 87C451 64 pin dip 83C752 80C51 4N28 spec sheet
Text: , I2C, PWM, low pin count OSCILLATOR CHARACTERISTICS DIFFERENCES BETWEEN THE 8XC752 AND THE 80C51 , : The I2C bus uses two wires (SDA and SCL) to transfer information between devices connected to the bus , specification 80C51 8-bit microcontroller family 2K/64 OTP/ROM, 5 channel 8 bit A/D, I2C, PWM, low pin count , advantages of the 80C51 architecture in a small package and at low cost. ­ 28-pin DIP ­ 28-pin PLCC , software, SCL and SDA are driven low in accordance with the I2C protocol. These pins are driven low if the


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PDF 83C752/87C752 80C51 2K/64 83C752/87C752 28-pin various PWM techniques PWM 003 Specification Quartz Crystals 12Mhz Philips 87C752 8XC752 87C752 87C451 64 pin dip 83C752 4N28 spec sheet
1999 - S87C752-5N28

Abstract: S87C752-5A28 80C51 83C752 87C752 S87C752-4A28 S87C752-4N28 i2c pwm
Text: OSCILLATOR CHARACTERISTICS DIFFERENCES BETWEEN THE 8XC752 AND THE 80C51 X1 and X2 are the input and , 83C752/87C752 80C51 8-bit microcontroller family 2K/64 OTP/ROM, 5 channel 8 bit A/D, I2C, PWM, low pin , family 2K/64 OTP/ROM, 5 channel 8 bit A/D, I2C, PWM, low pin count 83C752/87C752 · Small package , in a small package and at low cost. ­ 28-pin DIP ­ 28-pin PLCC The 8XC752 Microcontroller is , sensitivity. ­ 28-pin SSOP · Wide oscillator frequency range · Low power consumption: The 8XC752


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PDF S87C752-4N28 S87C752-4A28 S87C752-5N28 S87C752-5A28 83C752/87C752 80C51 2K/64 83C752 87C752 i2c pwm
1996 - MS-012AC

Abstract: TDA8601 TDA8601T
Text: delay between input and output and delay differences are illustrated in Fig.6. Inputs 1 and 2 are either , DESCRIPTION · YUV/RGB and fast blanking switch The device is intended for switching between two RGB or , Jun 27 3 Philips Semiconductors Product specification RGB/YUV and fast blanking switch , . 1996 Jun 27 4 Philips Semiconductors Product specification RGB/YUV and fast blanking , Philips Semiconductors Product specification RGB/YUV and fast blanking switch SYMBOL PARAMETER


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PDF TDA8601 MS-012AC TDA8601 TDA8601T
2002 - SC16C2550

Abstract: SC16C2552 SC16C550 16C550 16C650 16c550 application
Text: between Philips SC16C550 and other industry standard devices from Exar and TI. In most cases the Philips , SC16C2550, SC16C2552 and SC16C554/554D since these devices are just the dual channel or quad channel , Philips SC16C550 and the comparison to other industry standard 16C550. This application note is also applicable to SC16C2550, SC16C2552 and SC16C554/554D. AN10163 SC16C550 application note Author: Dong , design and /or performance. Philips Semiconductors assumes no responsibility or liability for the use of


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PDF SC16C550 16C550. SC16C2550, SC16C2552 SC16C554/554D. AN10163 SC16C2550 SC16C2552 16C550 16C650 16c550 application
tja1080

Abstract: MFR4310 HCS12X MFR4310 datasheet HCS12 MFR4200 MFR4300 MPC500 MPC5500
Text: /MFR4310Settings There are slight differences between the pin-outs of MFR4200 and MFR4300/MFR4310 communication , . Table 4 shows a comparison of the pin-name differences between the two devices . 5 Figure 9 , ­MFR4xxx Power Disconnect JG18 ­ JG21 disconnect Vcc, Vbuf and Vbat from Physical Layer Devices U2 & U3 , controller 2 x Philips TJA1080 Physical Layers 2 x Channel Connectors 40MHz Oscillator with Selectable , connected to the Philips physical layer (TJA1080) Vio Pin 4, various pull-up resistors and the MFR4200 and


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PDF FLXRAYIPMFR4200 MFR4300FRDC/MFR4310FRDC MFR4200 MFR4300 MFR4310, tja1080 MFR4310 HCS12X MFR4310 datasheet HCS12 MPC500 MPC5500
1998 - Philips high frequency bipolar transistor with Ft

Abstract: equivalent transistor bc 107 modern transistor substitute RF Bipolar Transistor bipolar transistor die layout RF NPN POWER TRANSISTOR 5 WATT 2.4 GHZ Philips high frequency bipolar transistor NPN planar RF transistor bc 107 TRANSISTOR equivalent BIPOLAR TRANSISTOR
Text: Philips Semiconductors RF transmitting transistor and power amplifier fundamentals 1 , 23 1 16 Collector Philips Semiconductors RF transmitting transistor and power , current. Philips Semiconductors RF transmitting transistor and power amplifier fundamentals , current. 1998 Mar 23 4 Philips Semiconductors RF transmitting transistor and power amplifier , paper. 5 Philips Semiconductors RF transmitting transistor and power amplifier fundamentals


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PDF MGM011 BLV861 BLV2045 Philips high frequency bipolar transistor with Ft equivalent transistor bc 107 modern transistor substitute RF Bipolar Transistor bipolar transistor die layout RF NPN POWER TRANSISTOR 5 WATT 2.4 GHZ Philips high frequency bipolar transistor NPN planar RF transistor bc 107 TRANSISTOR equivalent BIPOLAR TRANSISTOR
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