ATA6613C_14 Datasheet, PDF(10/312 Page) ATMEL Corporation – 8K/16K Flash Microcontroller with LIN Transceiver, 5V Regulator and Watchdog

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ATA6613C_14 Datasheet, PDF (10/312 Pages) ATMEL Corporation – 8K/16K Flash Microcontroller with LIN Transceiver, 5V Regulator and Watchdog

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3.3.10 Enable Input Pin (EN)

The enable Input pin controls the operation mode of the device. If EN is high, the circuit is in normal mode, with transmission

paths from TXD to LIN and from LIN to RXD both active. The VCC voltage regulator operates with 5V/85mA output

capability.

If EN is switched to low while TXD is still high, the device is forced to silent mode. No data transmission is then possible, and

the current consumption is reduced to IVS typ. 57ÂµA. The VCC regulator has its full functionality.

If EN is switched to low while TXD is low, the device is forced to sleep mode. No data transmission is possible, and the

voltage regulator is switched off.

3.3.11 Wake Input Pin (WAKE)

The wake input pin is a high-voltage input used to wake up the device from sleep mode or silent mode. It is usually

connected to an external switch in the application to generate a local wake-up. A pull-up current source, typically 10ÂµA, is

implemented.

If a local wake-up is not needed for the application, connect the Wake pin directly to the VS pin.

3.3.12 Mode Input Pin (MODE)

Connect the MODE pin directly or via an external resistor to GND for normal watchdog operation. To debug the software of

the connected microcontroller, connect the MODE pin to VCC and the watchdog is switched off.

3.3.13 TM Input Pin

The TM pin is used for final production measurements at AtmelÂ®. In normal application, it has to be always connected to

GND.

3.3.14 KL_15 Pin

The KL_15 pin is a high-voltage input used to wake up the device from sleep or silent mode. It is an edge sensitive pin

(low-to-high transition). It is usually connected to ignition to generate a local wake-up in the application when the ignition is

switched on. Although KL_15 pin is at high voltage (VBatt), it is possible to switch the IC into sleep or silent mode. Connect

the KL_15 pin directly to GND if you do not need it. A debounce timer with a typical TdbKl_15 of 160Âµs is implemented.

The input voltage threshold can be adjusted by varying the external resistor due to the input current IKL_15. To protect this pin

against voltage transients, a serial resistor of 47kÎ© and a ceramic capacitor of 100nF are recommended. With this RC

combination you can increase the wake-up time TwKL_15 and, therefore, the sensitivity against transients on the ignition

Kl.15.

The wake-up time can also be increased by using external capacitors with higher values.

3.3.15 INH Output Pin

The INH Output pin is used to switch on an external voltage regulator during normal or fail-safe mode. The INH pin is

switched off in sleep or silent mode. It is possible to switch off the external 1kÎ© master resistor via the INH pin for master

node applications. The INH pin is switched off during VCC under voltage reset.

3.3.16 Reset Output Pin (NRES)

The reset output pin, an open drain output, switches to low during VCC under voltage or a watchdog failure.

3.3.17 WD_OSC Output Pin

The WD_OSC output pin provides a typical voltage of 1.2V, which supplies an external resistor with values between 34kÎ©

and 120kÎ© to adjust the watchdog oscillator time.

3.3.18 NTRIG Input Pin

The NTRIG input pin is the trigger input for the window watchdog. A pull-up resistor is implemented. A negative edge triggers

the watchdog. The trigger signal (low) must exceed a minimum time ttrigmin to generate a watchdog trigger.

10 ATA6612C/ATA6613C [DATASHEET]

9111LâAUTOâ11/14

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