ata6286-pnqw ATMEL Corporation, ata6286-pnqw Datasheet

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ata6286-pnqw

Manufacturer Part Number
ata6286-pnqw
Description
Ata6285 Tpms Control And Transmitter Ic
Manufacturer
ATMEL Corporation
Datasheet
1.ATA6286-PNQW.pdf (18 pages)
Features
1. Description
ATA6285 and ATA6286 are highly integrated smart RF micro transmitter ICs for
315 MHz and 433 MHz, suited for ASK and FSK with typically 20 Kbits/s data rate in
Manchester mode. The devices combine the functionality of the RF transmitter ICs
ATA5756/ATA5757 with the programmable low-power AVR 8-bit Flash microcontroller
in a single QFN32 package (5 mm
dedicated ADC interface for simple capacitive sensors as well as an on-chip tempera-
ture sensor. Three sensor interfaces are available for a capacitive range of 2 pF to
16 pF, where one channel can be configured as motion wake-up in the range of 3 pF
to 5 pF. The ICs are suited for use in tire pressure monitoring (TPMS) sensor gauges
in combination with external sensor devices.
The programmable AVR 8-bit Flash microcontroller includes 8 Kbytes of in-system
self-programmable Flash memory and an 320-Bytes EEPROM, thus allowing the sys-
tem integrator to install field-programmable firmware to enable system flexibility on
different platforms. ATA6285 and ATA6286 can be configured to guarantee extremely
low power consumption in sleep mode and measurement mode. They also include a
programmable 125 kHz wake-up receiver channel for extremely low current consump-
tion in listening mode. The ICs are designed for use in applications with typically less
then 10 passive components: one external crystal for the sensor gauge, several
capacitors, a single LiMnO2 battery coin cell, a single-ended antenna for the data
transmission and an LF ferrite coil for the wake-up channel. ATA6285 and ATA6286
support TPMS-specific low-current modes even with an active brown-out detection
and an interval timer.
Programmable AVR
Frequency: 315 MHz (ATA6285) and 433 MHz (ATA6286)
Support ASK/FSK Modulation with Integrated FSK Switch
6 dBm Output Power with Typically 8.5 mA Active Current Consumption in
Transmission Mode
Low-power Microcontroller Requires Typically 0.6 µA Sleep Current with Active Interval
Timer
Interfaces for Simple Capacitive Sensors (2 pF to 6 pF)
One Interface Can Be Configured for Motion Wake-up (3 pF to 5 pF)
Typically 25 mbar ADC Resolution for Pressure Measurement with Dedicated Sensor
Type
Low-power Measurement Mode for Directly Connected Capacitive Sensors Typically
200 µA at 1 MHz System Clock
Programmable 125 kHz Wake-up Receiver Channel with Typically 1.7 µA Current
Consumption in Listing Mode
2V to 3.6V Operation Voltage for Single Li-cell Power Supply
–40°C to +125°C Operation Temperature and –40°C to +150°C Storage Temperature
Less then 10 External Passive Components
QFN32 (5 mm
5 mm) Package
®
8-bit Flash Microcontroller Transmitter IC
5 mm). The ATA6285 and ATA6286 include a
TPMS Control
and Transmitter
IC
ATA6285
ATA6286
Summary
Preliminary
NOTE: This is a summary document.
The complete document is available
under NDA. For more information,
please contact your local Atmel sales
office.
4958AS–AUTO–09/06

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ata6286-pnqw Summary of contents

Page 1

... LiMnO2 battery coin cell, a single-ended antenna for the data transmission and an LF ferrite coil for the wake-up channel. ATA6285 and ATA6286 support TPMS-specific low-current modes even with an active brown-out detection and an interval timer ...

Page 2

... Overview 2.1 Application Figure 2-1. Tire Pressure Monitoring System (TPMS) Battery Crystal Frequency 13.56 MHz for 433 MHz application Crystal Frequency 13.125 MHz for 315 MHz application ATA6285/ATA6286 [Preliminary] 2 VDD XZ Pressure Motion sensor sensor ATA6285 ATA6286 ...

Page 3

... Temperature sensor IO Ports 2.3 Inter-die Bonding The ATA6285/ATA6286 are Smart RF Micro Transmitter ICs in MCP (Multi Chip Package) tech- nology. Table 2-1. AVR – Pin PD3 (INT1) – External interrupt input 1 PD4 (ECIN1) – External clock input 1 PD5 (T2O1) – Timer2 modulator output 1 PD6 (T2O2) – ...

Page 4

... PB6 7 PB7 8 XT02 9 PB2 10 XT01 11 VS_RF 12 GND 13 NRESET 14 GND GND Note: 1. Internal inter-die connection of the MCP ATA6285/ATA6286 [Preliminary GND 18 7 LF1 19 6 ATA62857 LF2 20 5 ATA6286 VCC 21 4 PC2 22 3 PC1 23 2 PC0 ...

Page 5

... As inputs, Port B pins that are externally pulled low will source current if the pull-up resistors are activated. The Port B pins are tri-stated when a reset condition becomes active, even if the clock is not running. Port B also serves the functions of various special features of the ATmegaT. 4958AS–AUTO–09/06 ATA6285/ATA6286 [Preliminary] Alternate Alternate Function 1 Function 2 – ...

Page 6

... Shorter pulses then defined minimum pulse length are not guaranteed to generate a reset. 2.5.7 LF (2..1) Input coil pins for the LF-Receiver. 2.5.8 S (2..0) Measuring input pins for external capacitance sensor elements. 2.5.9 ANT(2, 1) RF-Antenna pins. 2.5.10 XTO(0, 1) External crystal for the internal RF transmitter IC. ATA6285/ATA6286 [Preliminary] 6 4958AS–AUTO–09/06 ...

Page 7

... The embedded core is an extremely low-power CMOS 8-bit microcontroller based on the AVR enhanced RISC architecture. By executing powerful instructions in a single clock cycle, the AVR core achieves throughputs approaching 1 MIPS per MHz allowing the designer to optimize power consumption versus processing speed. 4958AS–AUTO–09/06 ATA6285/ATA6286 [Preliminary] 8 General Purpose Working Registers 7 ...

Page 8

... Block Diagram Figure 3-1. ATA6285/ATA6286 [Preliminary] 8 Microcontroller Block Diagram Oscillator Watchdog circuit timer 0 Clock Watchdog management oscillator and monitoring EEPROM SRAM debugWIRE Program logic 16 bit bit T1 Temperature 16 bit T/ C3 sensor SPI LF receiver PORT C (x) PORT B (x) Power VCC Supervision POR/ BOD/ ...

Page 9

... The AVR is supported with a full suite of program and system development tools including: C Compilers, Macro Assemblers, Program Debugger/Simulators, In-Circuit Emulators, and Evalu- ation Kits. 4958AS–AUTO–09/06 ATA6285/ATA6286 [Preliminary] ® ’s high density non-volatile memory technology. The 9 ...

Page 10

... RF low-cost transmission systems at data rates Kbits/s Manchester coding and 40 Kbits/s NRZ coding. The transmitting frequency range is 313 MHz to 317 MHz (ATA6285) and 432 MHz to 448 MHz (ATA6286), respectively. It can be used in both FSK and ASK sys- tems. Due to its shorten crystal oscillator settling time it is well suited for Tire Pressure Monitoring (TPMS) and for Passive Entry Go applications ...

Page 11

... CLK output activation. This means an additional wait time of necessary before the PA can be switched on and the data transmission can start. This results in a significantly lower time of about 0.85 ms between enabling the ATA6285/ATA6286 and the beginning of the data transmission which saves battery power especially in tire pressure moni- toring systems ...

Page 12

... Transmission with ENABLE = Open 4.5.1.1 ASK Mode The ATA6285/ATA6286 is activated by ENABLE = open, FSK = High, ASK = Low. The micro- controller is then switched to external clocking. After typically 0.6 ms, the CLK driver is activated automatically (i.e., the microcontroller waits until the XTO and CLK are ready). After another time period of 250 µ ...

Page 13

... Transmission with ENABLE = High 4.5.2.1 FSK Mode The ATA6285/ATA6286 is activated by ENABLE = High, FSK = High and ASK = Low. The microcontroller is then switched to external clocking. After typically 0.6 ms, the CLK driver is acti- vated automatically (i.e., the microcontroller waits until the XTO and CLK are ready). After another time period of 250 µ ...

Page 14

... Figure 4-4. 4.5.2.2 ASK Mode The ATA6285/ATA6286 is activated by ENABLE = High, FSK = High and ASK = Low. After acti- vation the microcontroller is switched to external clocking. After typically 0.6 ms, the CLK driver is activated automatically (the microcontroller waits until the XTO and CLK are ready). After another time period of 250 µs, the PLL is locked and ready to transmit. The output power can then be modulated by means of pin ASK ...

Page 15

... CLK Output An output CLK signal of 1.64 MHz (ATA6285 operating at 315 MHz) and 1.69 MHz (ATA6286 operating at 433.92 MHz) is provided for a connected microcontroller. The delivered signal is CMOS-compatible with a High and Low time of >125 ns if the load capacitance is lower than 20 pF. The CLK output is Low in power-down mode due to an internal pull-down resistor. After enabling the PLL and XTO the signal stays Low until the amplitude of the crystal oscillator has reached 35% to 80% of its amplitude ...

Page 16

... The clock of the crystal oscillator can be used for clocking the microcontroller. Atmel’s ATARx9x microcontroller family provides the special feature of starting with an integrated RC oscillator to switch on the ATA6285/ATA6286 external clocking and to wait automatically until the CLK out- put of the ATA6285/ATA6286 is activated. After a time period of 250 µs the message can be sent with crystal accuracy. 4.5.6 Output Matching and Power Setting The output power is set by the load impedance of the antenna ...

Page 17

... Ordering Information Extended Type Number ATA6285-PNPW ATA6286-PNPW ATA6285-PNQW ATA6286-PNQW 6. Package Information Package: QFN_ 5 x 5_32L Exposed pad 3.6 x 3.6 Dimensions in mm Not indicated tolerances ±0.05 Pin1 identification Drawing-No.: 6.543-5124.01-4 Issue: 1; 28.11.05 4958AS–AUTO–09/06 ATA6285/ATA6286 [Preliminary] Package Frequency QFN32 315 MHz QFN32 433 MHz ...

Page 18

... Atmel products are not suitable for, and shall not be used in, automotive applications. Atmel’s products are not intended, authorized, or warranted for use as components in applications intended to support or sustain life. © 2006 Atmel Corporation. All rights reserved. Atmel marks or trademarks of Atmel Corporation or its subsidiaries. Other terms and product names may be trademarks of others. Atmel Operations Memory ...

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