DatasheetsPDF.com

ATA8535 Datasheet PDF


Part Number ATA8535
Manufacturer Microchip
Title UHF ASK/FSK Transceiver
Description ATA8535 ATA8535 UHF ASK/FSK Transceiver Data Sheet Introduction The ATA8535 is a state-of-the-art, ultra-low power, Ultra High Frequency (UHF) sma...
Features identical to the ATA8535 but without transmit function. Features
• Internal Microcontroller System
  – AVR 8-Bit Microcontroller Core
  – Firmware Library in ROM
  – 20-Kbyte Flash Program Memory for Customer Applications
  – 2-Kbyte SRAM (1 Kbyte for Customer Applications)
  – 1-Kbyte EEPROM for Up to Four S...

File Size 680.09KB
Datasheet ATA8535 PDF File








Similar Ai Datasheet

ATA8041AB : SPECIFICATION :LED PRODUCTION NAME: LED DIGITS : PRODCTION TYPE: ATA8041AB : TYPE: BLUE CUSTOMER’S : CUSTOMER: : MODEL NO: : PART NO: INFORMATION : 2012-10-29 DATE: October 29, 2012 : ISSUEDER: APPROVED BY : SIGN: RESULT: : DATE: PLEASE RETURN BY ONE COPY ,、、、、VCD/DVD IC、 (DESIGN): (CHECKED): (APPROVED): : A1 14 :0755-81451828 :0755-81451886 PDF "pdfFactory Pro" www.fineprint..

ATA8201 : The ATA8201/ATA8202 is a UHF ASK/FSK transparent receiver IC with low power consumption supplied in a small QFN24 package (body 5 mm × 5 mm, pitch 0.65 mm). ATA8202 is used in the 433 MHz to 435 MHz band of operation, and ATA8201 in 313 MHz to 317 MHz. For improved image rejection and selectivity, the IF frequency is fixed to 440 kHz. The IF block uses an 8th-order band pass yielding a receive bandwidth of 420 kHz. This enables the use of the receiver in both SAW- and PLL-based transmitter systems utilizing various types of data-bit encoding such as pulse width modulation, Manchester modulation, variable pulse modulation, pulse position modulation, and NRZ. Prevailing encryption protocols su.

ATA8202 : The ATA8201/ATA8202 is a UHF ASK/FSK transparent receiver IC with low power consumption supplied in a small QFN24 package (body 5 mm × 5 mm, pitch 0.65 mm). ATA8202 is used in the 433 MHz to 435 MHz band of operation, and ATA8201 in 313 MHz to 317 MHz. For improved image rejection and selectivity, the IF frequency is fixed to 440 kHz. The IF block uses an 8th-order band pass yielding a receive bandwidth of 420 kHz. This enables the use of the receiver in both SAW- and PLL-based transmitter systems utilizing various types of data-bit encoding such as pulse width modulation, Manchester modulation, variable pulse modulation, pulse position modulation, and NRZ. Prevailing encryption protocols su.

ATA8203 : ATA8203/ATA8204/ATA8205 Industrial UHF ASK/FSK Receiver DATASHEET Features ● Frequency receiving range of (3 versions) ● f0 = 312.5MHz to 317.5MHz or ● f0 = 431.5MHz to 436.5MHz or ● f0 = 868MHz to 870MHz ● 30dB image rejection ● Receiving bandwidth ● BIF = 300kHz for 315MHz/433MHz version ● BIF = 600kHz for 868MHz version ● Fully integrated LC-VCO and PLL loop filter ● Very high sensitivity with power matched LNA ● Atmel® ATA8203/ATA8204: ● –107dBm, FSK, BR_0 (1.0Kbit/s to 1.8Kbit/s), Manchester, BER 10E-3 ● –113dBm, ASK, BR_0 (1.0Kbit/s to 1.8Kbit/s), Manchester, BER 10E-3 ● Atmel ATA8205: ● –105dBm, FSK, BR_0 (1.0Kbit/s to 1.8Kbit/s), Manchester, BER 10E-3 ● –111dBm, ASK, BR_0 (1.0Kbit/s .

ATA8204 : ATA8203/ATA8204/ATA8205 Industrial UHF ASK/FSK Receiver DATASHEET Features ● Frequency receiving range of (3 versions) ● f0 = 312.5MHz to 317.5MHz or ● f0 = 431.5MHz to 436.5MHz or ● f0 = 868MHz to 870MHz ● 30dB image rejection ● Receiving bandwidth ● BIF = 300kHz for 315MHz/433MHz version ● BIF = 600kHz for 868MHz version ● Fully integrated LC-VCO and PLL loop filter ● Very high sensitivity with power matched LNA ● Atmel® ATA8203/ATA8204: ● –107dBm, FSK, BR_0 (1.0Kbit/s to 1.8Kbit/s), Manchester, BER 10E-3 ● –113dBm, ASK, BR_0 (1.0Kbit/s to 1.8Kbit/s), Manchester, BER 10E-3 ● Atmel ATA8205: ● –105dBm, FSK, BR_0 (1.0Kbit/s to 1.8Kbit/s), Manchester, BER 10E-3 ● –111dBm, ASK, BR_0 (1.0Kbit/s .

ATA8205 : ATA8203/ATA8204/ATA8205 Industrial UHF ASK/FSK Receiver DATASHEET Features ● Frequency receiving range of (3 versions) ● f0 = 312.5MHz to 317.5MHz or ● f0 = 431.5MHz to 436.5MHz or ● f0 = 868MHz to 870MHz ● 30dB image rejection ● Receiving bandwidth ● BIF = 300kHz for 315MHz/433MHz version ● BIF = 600kHz for 868MHz version ● Fully integrated LC-VCO and PLL loop filter ● Very high sensitivity with power matched LNA ● Atmel® ATA8203/ATA8204: ● –107dBm, FSK, BR_0 (1.0Kbit/s to 1.8Kbit/s), Manchester, BER 10E-3 ● –113dBm, ASK, BR_0 (1.0Kbit/s to 1.8Kbit/s), Manchester, BER 10E-3 ● Atmel ATA8205: ● –105dBm, FSK, BR_0 (1.0Kbit/s to 1.8Kbit/s), Manchester, BER 10E-3 ● –111dBm, ASK, BR_0 (1.0Kbit/s .

ATA8210 : 1.1 Introduction The Atmel® ATA8210/15 is a highly integrated, low-power UHF ASK/FSK RF receiver with an integrated AVR® microcontroller. The Atmel ATA8210/15 is partitioned into three sections; an RF front end, a digital baseband and the low-power 8-bit AVR microcontroller. The product is designed for the ISM frequency bands in the ranges of 310MHz to 318MHz, 418MHz to 477MHz and 836MHz to 956MHz. The external part count is kept to a minimum due to the very high level of integration in this device. By combining outstanding RF performance with highly sophisticated baseband signal processing, robust wireless communication can be easily achieved. The receive path uses a low-IF architecture wi.

ATA8215 : 1.1 Introduction The Atmel® ATA8210/15 is a highly integrated, low-power UHF ASK/FSK RF receiver with an integrated AVR® microcontroller. The Atmel ATA8210/15 is partitioned into three sections; an RF front end, a digital baseband and the low-power 8-bit AVR microcontroller. The product is designed for the ISM frequency bands in the ranges of 310MHz to 318MHz, 418MHz to 477MHz and 836MHz to 956MHz. The external part count is kept to a minimum due to the very high level of integration in this device. By combining outstanding RF performance with highly sophisticated baseband signal processing, robust wireless communication can be easily achieved. The receive path uses a low-IF architecture wi.

ATA8401 : ATA8401 UHF ASK/FSK Industrial Transmitter DATASHEET Features ● Integrated PLL loop filter ● ESD protection (3kV HBM/150V MM) ● High output power (8.0dBm) with low supply current (9.0mA) ● Modulation scheme ASK/FSK ● FSK modulation is achieved by connecting an additional capacitor between the XTAL load capacitor and the open drain output of the modulating microcontroller ● Easy to design-in due to excellent isolation of the PLL from the PA and power supply ● Single Li-cell for power supply ● Supply voltage 2.0V to 4.0V in the temperature range of –40°C to +85°C ● Package TSSOP8L ● Single-ended antenna output with high efficient power amplifier ● CLK output for clocking the microcontroller ● .

ATA8402 : ATA8402 UHF ASK/FSK Industrial Transmitter DATASHEET Features ● Integrated PLL loop filter ● ESD protection (3kV HBM/150V MM) ● High output power (7.5dBm) with low supply current (9.0mA) ● Modulation scheme ASK/FSK ● FSK modulation is achieved by connecting an additional capacitor between the XTAL load capacitor and the open drain output of the modulating microcontroller ● Easy to design-in due to excellent isolation of the PLL from the PA and power supply ● Single Li-cell for power supply ● Supply voltage 2.0V to 4.0V in the temperature range of –40°C to +85°C ● Package TSSOP8L ● Single-ended antenna output with high efficient power amplifier ● CLK output for clocking the microcontroller ● .

ATA8403 : ATA8403 UHF ASK/FSK Industrial Transmitter DATASHEET Features ● Integrated PLL loop filter ● ESD protection (3kV HBM/150V MM) ● High output power (5.5dBm) with low supply current (8.5mA) ● Modulation scheme ASK/FSK ● FSK modulation is achieved by connecting an additional capacitor between the XTAL load capacitor and the open drain output of the modulating microcontroller ● Easy to design-in due to excellent isolation of the PLL from the PA and power supply ● Single Li-cell for power supply ● Supply voltage 2.0V to 4.0V in the temperature range of –40°C to +85°C ● Package TSSOP8L ● Single-ended antenna output with high efficient power amplifier ● CLK output for clocking the microcontroller ● .

ATA8404 : The Atmel® ATA8404/ATA8405 is a PLL transmitter IC.

ATA8405 : The Atmel® ATA8404/ATA8405 is a PLL transmitter IC.

ATA8510 : ATA8510/ATA8515 UHF ASK/FSK Transceiver DATASHEET Features ● AVR® microcontroller core with 1Kbyte SRAM and 24Kbyte RF library in firmware (ROM) ● Atmel® ATA8515: No user memory — RF library in firmware only ● Atmel ATA8510: 20Kbyte of user Flash ● Supported frequency ranges ● Low-band 310MHz to 318MHz, 418MHz to 477MHz ● High-band 836MHz to 956MHz ● 315.00MHz/433.92MHz/868.30MHz and 915.00MHz with one 24.305MHz crystal ● Low current consumption ● 9.8mA for RXMode (low-band), 1.2mA for 21ms cycle three-channel polling ● 9.4mA/13.8mA for TXMode (low-band, Pout = 6dBm/10dBm) ● Typical OFFMode current of 5nA (maximum 600nA at VS = 3.6V and T = 85°C) ● Programmable output power –12dBm to.

ATA8515 : ATA8510/ATA8515 UHF ASK/FSK Transceiver DATASHEET Features ● AVR® microcontroller core with 1Kbyte SRAM and 24Kbyte RF library in firmware (ROM) ● Atmel® ATA8515: No user memory — RF library in firmware only ● Atmel ATA8510: 20Kbyte of user Flash ● Supported frequency ranges ● Low-band 310MHz to 318MHz, 418MHz to 477MHz ● High-band 836MHz to 956MHz ● 315.00MHz/433.92MHz/868.30MHz and 915.00MHz with one 24.305MHz crystal ● Low current consumption ● 9.8mA for RXMode (low-band), 1.2mA for 21ms cycle three-channel polling ● 9.4mA/13.8mA for TXMode (low-band, Pout = 6dBm/10dBm) ● Typical OFFMode current of 5nA (maximum 600nA at VS = 3.6V and T = 85°C) ● Programmable output power –12dBm to.

ATA8710 : ATA8710 Sub-GHz ASK/FSK RF Transmitter with Integrated MCU and 20 Kbytes Flash Program Memory Introduction The ATA8710 is a highly integrated, low-power UHF ASK/FSK RF transmitter with an integrated AVR® microcontroller. The ATA8710 is partitioned into three sections: an RF front-end, digital baseband and the low-power 8-bit AVR microcontroller. The product is designed for the ISM frequency bands from 310 MHz to 318 MHz, 418 MHz to 477 MHz, and 836 MHz to 956 MHz. The external part count is kept to a minimum due to the very high level of integration in this device. By combining outstanding RF performance with highly sophisticated baseband signal processing, robust wireless communication can.




Since 2006. D4U Semicon,
Electronic Components Datasheet Search Site. (Privacy Policy & Contact)