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    MICROCONTROLLER BASED TEMPERATURE CONTROL Search Results

    MICROCONTROLLER BASED TEMPERATURE CONTROL Result Highlights (5)

    Part ECAD Model Manufacturer Description Download Buy
    TMPM3HMFYAFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP80-1212-0.50-003 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM3HPFYADFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP128-1420-0.50-001 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM3HLFYAUG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP64-1010-0.50-003 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM3HNFZAFG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP100-1414-0.50-002 Visit Toshiba Electronic Devices & Storage Corporation
    TMPM3HLFZAUG Toshiba Electronic Devices & Storage Corporation Arm Cortex-M3 Core Based Microcontroller/32bit/P-LQFP64-1010-0.50-003 Visit Toshiba Electronic Devices & Storage Corporation

    MICROCONTROLLER BASED TEMPERATURE CONTROL Datasheets Context Search

    Catalog Datasheet MFG & Type PDF Document Tags

    AUTOMATIC FAN CONTROL ACCORDING TEMP

    Abstract: AN3620 APP3620 DS18S20 DS1920 DS9094FS MAX1407 MAXQ2000 RL1005-5744-103-SA T2R01
    Text: Maxim > App Notes > 1-Wire Devices Temperature Sensors and Thermal Management Keywords: MAXQ2000, temperature, motor, fan, control, EV Kit, evaluation Sep 16, 2005 APPLICATION NOTE 3620 Temperature-Based Fan Control Using the MAXQ2000 Microcontroller Abstract: This application note describes how to use a MAXQ2000 microcontroller to control DC fan speed and


    Original     		PDF MAXQ2000, MAXQ2000 MAXQ2000 DS18S20: DS1920: MAX1407: MAXQ2000: AN3620, AUTOMATIC FAN CONTROL ACCORDING TEMP AN3620 APP3620 DS18S20 DS1920 DS9094FS MAX1407 RL1005-5744-103-SA T2R01

    Untitled

    Abstract: No abstract text available
    Text: STEVAL-CDE001V1 Embedded web server based on the ST72F321M9 microcontroller Data Brief Features • Provides temperature measurements in the range of -55 °C to 150 °C ■ Ethernet interface to the webpage based temperature display on computer terminal ■


    Original     		PDF STEVAL-CDE001V1 ST72F321M9

    con50a

    Abstract: con14ap ST72F321M9T6 LCD162 STEVAL-CDE001V1 2x16 dot matrix ST232ABDR CON14A ME45PE80-VMP6TG KF33BD-TR
    Text: STEVAL-CDE001V1 Embedded web server based on the ST72F321M9 microcontroller Data Brief Features • Provides temperature measurements in the range of -55 °C to 150 °C ■ Ethernet interface to the webpage based temperature display on computer terminal ■


    Original     		PDF STEVAL-CDE001V1 ST72F321M9 con50a con14ap ST72F321M9T6 LCD162 STEVAL-CDE001V1 2x16 dot matrix ST232ABDR CON14A ME45PE80-VMP6TG KF33BD-TR

    VECO Thermistor

    Abstract: No abstract text available
    Text: Q Series, TC-18-QE-50 Temperature Controller Innovative Technology for a Connected World Q SERIES TEMPERATURE CONTROLLER The Q Series thermostatic controller is a microcontroller based device that can be incorporated into a thermoelectric assembly TEA to add integrated temperature control. This controller functions as a


    Original     		PDF TC-18-QE-50 VECO Thermistor

    Microcontroller based tachometer

    Abstract: VECO Thermistor fans speed with temperature ntc sensor thermostat tachometer speed sensor tachometer temperature controller LED141
    Text: Q Series, TC-18-QC-50 Temperature Controller Innovative Technology for a Connected World Q SERIES TEMPERATURE CONTROLLER The Q Series thermostatic controller is a microcontroller based device that can be incorporated into a thermoelectric assembly TEA to add integrated temperature control. This controller functions as


    Original     		PDF TC-18-QC-50 Microcontroller based tachometer VECO Thermistor fans speed with temperature ntc sensor thermostat tachometer speed sensor tachometer temperature controller LED141

    DB9 Sensor connector

    Abstract: microcontroller based temperature sensor 6.8k pnp sensor 78L05 equivalent sensor temperature sensor Temperature sensor p1 78L05 BAV70
    Text: Prelimenary Smartec B.V. November 2004 -1- Temperature Sensor Demonstration Board The Temperature Sensor Demonstration Board measures the temperature from -45°C up to +130 °C using Smartec’s temperature sensors and sends the temperature as a standard ASCII string. The kit is based on a Microchip’s PIC12F629 microcontroller


    Original     		PDF PIC12F629 RS232 DB9 Sensor connector microcontroller based temperature sensor 6.8k pnp sensor 78L05 equivalent sensor temperature sensor Temperature sensor p1 78L05 BAV70

    temperature based fan speed control using microcontroller

    Abstract: microcontroller based temperature control fan fan speed control using pwm DC MOTOR SPEED CONTROL USING mosfet theory 0x1D00 inductive sensor interfacing with microcontroller STLM75 temperature controlled microcontroller based control fan circuit diagram of mosfet based speed control AN2680
    Text: AN2680 Application note Fan speed controller based on STDS75 or STLM75 digital temperature sensor and ST72651AR6 MCU Introduction This application note describes the method of defining the system for regulating the speed of the 5 Vdc fan using an ST72651AR6 microcontroller and digital temperature sensor


    Original     		PDF AN2680 STDS75 STLM75 ST72651AR6 STLM75. temperature based fan speed control using microcontroller microcontroller based temperature control fan fan speed control using pwm DC MOTOR SPEED CONTROL USING mosfet theory 0x1D00 inductive sensor interfacing with microcontroller temperature controlled microcontroller based control fan circuit diagram of mosfet based speed control AN2680

    ST30F752i

    Abstract: st30f ST30F772 ST30F77 ST30F772i st30f7 LQFP144 TQFP100 ARM7 sample program p614
    Text: ST30F751i - ST30F752i ST30F771i - ST30F772i ARM7TDMI 16-/32-bit RISC CPU based microcontroller Features • Temperature range – Operating temperature range -40 to 105°C ■ Memory available – Up to 256 Kbytes Flash and 16 Kbytes RAM ■ Clock, reset and supply management


    Original     		PDF ST30F751i ST30F752i ST30F771i ST30F772i 16-/32-bit ST30F752i st30f ST30F772 ST30F77 ST30F772i st30f7 LQFP144 TQFP100 ARM7 sample program p614

    EEPROM EXAMPLE STM8s

    Abstract: STM8S105C6T6 stm8s ST232CN stm8s105 LM235 ST232C UM0817 UM0834 STMicroelectronics SO8 431
    Text: AN3260 Application note Building a thermometer using the STM8S-DISCOVERY Application overview This application demonstrates how to build a simple thermometer based on the STM8SDISCOVERY and the LM235 precision temperature sensor. The STM8S105C6T6 microcontroller reads the temperature values and transmits them through the UART


    Original     		PDF AN3260 LM235 STM8S105C6T6 RS232 EEPROM EXAMPLE STM8s STM8S105C6T6 stm8s ST232CN stm8s105 ST232C UM0817 UM0834 STMicroelectronics SO8 431

    molex 5484-03AX

    Abstract: No abstract text available
    Text: MODULE APD module C10508 Variable gain and stable detection even at high gains Along with an APD, current-to-voltage conversion circuit, and high-voltage power supply circuit, the C10508 contains a microcontroller to perform temperature compensation based on information from the internal thermosensor. Because temperature coefficients that match the APD temperature


    Original     		PDF C10508 C10508 SE-171 KACC1134E03 molex 5484-03AX

    molex 5484-03AX

    Abstract: C5331 5484-03AX C4777 C4777-01 C5460 C5460-01 C5658 53047-0810 MOLEX 53047-0810
    Text: MODULE APD module C10508 Variable gain and stable detection even at high gains Along with an APD, current-to-voltage conversion circuit, and high-voltage power supply circuit, the C10508 contains a microcontroller to perform temperature compensation based on information from the internal thermosensor. Because temperature coefficients that match the APD temperature


    Original     		PDF C10508 C10508 SE-171 KACC1134E02 molex 5484-03AX C5331 5484-03AX C4777 C4777-01 C5460 C5460-01 C5658 53047-0810 MOLEX 53047-0810

    SS021

    Abstract: PIC16C717 SS02-1 DS41120B AN856
    Text: AN856 A PIC16C717 Based Fan Controller 4 Fan System Author: David Hedley Microchip Technology Inc. FEATURES It uses the 20-pin microcontroller to drive 4 fans of 2wire DC Brushless design. A thermistor provides a voltage level proportional to the temperature. The value is


    Original     		PDF AN856 PIC16C717 20-pin 10-bit D-85737 DS00856B-page SS021 SS02-1 DS41120B AN856

    st30f

    Abstract: ST30F77 ST30F772 LQFP144 ST30F772LV 0x80030000 P-TQFP-144 WUP23
    Text: ST30F772LV ARM7TDMI 16-/32-bit RISC CPU-based microcontroller Features • Temperature range – Operating temperature range -40 to 105°C ■ Memory available – Up to 256 Kbytes Flash – Up to 16 Kbytes RAM ■ Clock, reset and supply management – 4.5V to 5.5V operating supply range for I/O


    Original     		PDF ST30F772LV 16-/32-bit st30f ST30F77 ST30F772 LQFP144 ST30F772LV 0x80030000 P-TQFP-144 WUP23

    SM8580A

    Abstract: SM8580AM Digital Alarm Clock 40 pin Presettable Counter with alarm
    Text: SM8580AM Real-time Clock IC with 4-bit Interface and Built-in Temperature Sensor OVERVIEW The SM8580AM is a real-time clock IC based on a 32.768kHz crystal oscillator, which features a 4-bit parallel interface for communication with an external microcontroller.


    Original     		PDF SM8580AM SM8580AM 768kHz 30-second NC9915DE SM8580A Digital Alarm Clock 40 pin Presettable Counter with alarm

    Digital Alarm Clock 40 pin

    Abstract: SM8580A SM8580AM
    Text: SM8580AM Real-time Clock IC with 4-bit Interface and Built-in Temperature Sensor OVERVIEW The SM8580AM is a real-time clock IC based on a 32.768 kHz crystal oscillator, which features a 4-bit parallel interface for communication with an external microcontroller.


    Original     		PDF SM8580AM SM8580AM 30-second NC9915CE Digital Alarm Clock 40 pin SM8580A

    64TI

    Abstract: digital clock with seconds and alarm time display
    Text: SM8580AM Real-time Clock IC with 4-bit Interface and Built-in Temperature Sensor NIPPON PRECISION CIRCUITS INC. OVERVIEW The SM8580AM is a real-time clock IC based on a 32.768 kHz crystal oscillator, which features a 4-bit parallel interface for communication with an external microcontroller.


    Original     		PDF SM8580AM 30-second NC9915BE CIRCUITS--23 64TI digital clock with seconds and alarm time display

    SM8580A

    Abstract: SM8580AM
    Text: SM8580AM Real-time Clock IC with 4-bit Interface and Built-in Temperature Sensor NIPPON PRECISION CIRCUITS INC. OVERVIEW The SM8580AM is a real-time clock IC based on a 32.768 kHz crystal oscillator, which features a 4-bit parallel interface for communication with an external microcontroller.


    Original     		PDF SM8580AM SM8580AM 30-second NC9915AE CIRCUITS--23 SM8580A

    SM8580A

    Abstract: SM8580AM digital countdown timer Digital Alarm Clock 40 pin
    Text: SM8580AM Real-time Clock IC with 4-bit Interface and Built-in Temperature Sensor OVERVIEW The SM8580AM is a real-time clock IC based on a 32.768kHz crystal oscillator, which features a 4-bit parallel interface for communication with an external microcontroller. It comprises second-counter to year-counter


    Original     		PDF SM8580AM SM8580AM 768kHz 30-second NC9915FE SM8580A digital countdown timer Digital Alarm Clock 40 pin

    Untitled

    Abstract: No abstract text available
    Text: SM8580AM Real-time Clock IC with 4-bit Interface and Built-in Temperature Sensor OVERVIEW The SM8580AM is a real-time clock IC based on a 32.768kHz crystal oscillator, which features a 4-bit parallel interface for communication with an external microcontroller. It comprises second-counter to year-counter


    Original     		PDF SM8580AM SM8580AM 768kHz 30-second Tokyoi104-0032 iC81-3-5541-6501 iC81-3-5541-6510 NC9915FE

    s3c2440 pin

    Abstract: S3C2440A s3c2440A ARM920T S3C2440 Samsung S3C2440 samsung s3c2440 arm920t core TSXP ARM920T EINT20 128MBYTE
    Text: Embest Mini2440-I Processor Card Features z z z z z z z z z Dimensions: 65mm x 45mm Temperature: 0~+70℃ Samsung's S3C2440A microcontroller based on a 1.33V Static ARM920T CPU core with MMU 64Mbyte SDRAM 32MB/128MB compatible 128Mbyte Nand flash (support 256Mbyte for option)


    Original     		PDF Mini2440-I S3C2440A ARM920T 64Mbyte 32MB/128MB 128Mbyte 256Mbyte 12MHz 200MHz 32768Hz s3c2440 pin s3c2440A ARM920T S3C2440 Samsung S3C2440 samsung s3c2440 arm920t core TSXP EINT20

    SM8580A

    Abstract: No abstract text available
    Text: SM8580AM Real-time Clock IC with 4-bit Interface and Built-in Temperature Sensor OVERVIEW The SM8580AM is a real-time clock IC based on a 32.768kHz crystal oscillator, which features a 4-bit parallel interface for communication with an external microcontroller. It comprises second-counter to year-counter


    Original     		PDF SM8580AM SM8580AM 768kHz 30-second NC9915FE SM8580A

    AT77C101B-CB02V

    Abstract: block diagram of fingerprint attendance system smart card based attendance system fingerprint based attendance system diagram motherboard block diagram of fingerprint sensor schematic diagram of fingerprint sensor Linear fingerprint sensor specifications finger print sensor pcb with circuit block diagram motherboard
    Text: Features • • • • • • • • • • Module Size: 55 x 72 mm Smaller than Smart Card Microcontroller: Atmel ARM9 -based AT91RM9200 SDRAM: 128 Mbits Flash: Atmel DataFlash® 32 Mbits Fingerprint Sensor: Atmel FingerChip® AT77C101B-CB02V Operating Temperature Range: -30° C to +65° C


    Original     		PDF AT91RM9200 AT77C101B-CB02V RS485, AT77C101B-CB02V block diagram of fingerprint attendance system smart card based attendance system fingerprint based attendance system diagram motherboard block diagram of fingerprint sensor schematic diagram of fingerprint sensor Linear fingerprint sensor specifications finger print sensor pcb with circuit block diagram motherboard

    smart card based attendance system

    Abstract: atmel ARM9 AT77C101B-CB02V block diagram of fingerprint attendance system fingerprint based attendance system block diagram motherboard Bioscrypt atmel sd card module two factor access control processing authentication diagram motherboard
    Text: Features • • • • • • • • • • Module Size: 55 x 72 mm Smaller than Smart Card Microcontroller: Atmel ARM9 -based AT91RM9200 SDRAM: 128 Mbits Flash: Atmel DataFlash® 32 Mbits Fingerprint Sensor: Atmel FingerChip® AT77C101B-CB02V Operating Temperature Range: -30° C to +65° C


    Original     		PDF AT91RM9200 AT77C101B-CB02V RS-485, smart card based attendance system atmel ARM9 AT77C101B-CB02V block diagram of fingerprint attendance system fingerprint based attendance system block diagram motherboard Bioscrypt atmel sd card module two factor access control processing authentication diagram motherboard

    Untitled

    Abstract: No abstract text available
    Text: BOUMAR/UHITE TECHNOLOGY D lSbBbTfl 0 0 0 0 4 2 7 1 • BU T T~ V 9 White Technology MICROCONTROLLER MODULES WTIPait Number Description Speeds Available Max Power Dissipation Temperature Range Packages Features/Options WC8-P31 80C31 based 8 bit juC 7 MHz 500 mW


    OCR Scan     		PDF WC8-P31 80C31 Cto150Â WC8-P31F-64X 32Kx32 MC68881/68882FPC RS232, RS422, RS485