TLE 8264E Infineon Technologies, TLE 8264E Datasheet - Page 32

TLE 8264E

Manufacturer Part Number

TLE 8264E

Description

Manufacturer

Infineon Technologies

Datasheet

1.TLE_8264E.pdf (99 pages)

Specifications of TLE 8264E

Packages

PG-DSO-36

Transceiver

High Speed CAN ISO 11898 - 5 / 3 x LIN2.1 / J2602

Voltage Regulator Output

2 x 200 mA + 400 mA

Watchdog

Standard and Window Watchdog

Quiescent Current (max.)

28 ?A (typ) Sleep Mode (5V on)

Standby Current

58 ?A (typ) Stop Mode (5V on)

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8.2.1

To transfer the CAN transceiver into the CAN Normal Mode, an SPI word must be sent. This mode is designed for

normal data transmission/reception within the HS CAN network. It can be accessed in Normal Mode of the SBC,

as well as in SBC Software Flash Mode, and SBC Software Development Mode.

Transmission

The signal from the microcontroller is applied to the TxDCAN input of the SBC. The bus driver switches the

CANH/L output stages to transfer this input signal to the CAN bus lines.

Reduced Electromagnetic Emission

To reduce electromagnetic emissions (EME), the bus driver controls CANH/L slopes symmetrically.

Reception

Analog CAN bus signals are converted into digital signals at RxD via the differential input receiver. In CAN Normal

and CAN Receive Only Mode, the split pin is used to stabilize the Recessive Common Mode signal. The RxD pin

is diagnosed and the detected failure is reported to the SPI diagnostic register.

8.2.2

This mode, which can be used in SBC Stop, Sleep, Restart and Normal Modes by programming via SPI and is

automatically accessed in SBC Fail-Safe Mode, is used to monitor bus activities. A wake up signal on the bus

results in different behavior of the SBC, as described in

to CAN Normal Mode for communication. To enable the CAN wakeable mode after a wake via CAN, the CAN

transceiver must be switched to CAN Normal Mode, CAN Receive Only Mode or CAN Off, before switching to CAN

Wakeable Mode again.

Table 6

SBC Mode

Sleep Mode

Stop Mode

Restart Mode

Fail-Safe Mode

Normal Mode

1) When not masked via SPI

Wake-Up in SBC Sleep Mode

Wake-up is possible via a CAN message (filtering time t >

Restart Mode and from there to Normal Mode the RxD pins in set to LOW, see

able to detect the low signal on RxD and to read the wake source out of the “Wake Register Interrupt” register

(000) via SPI. No Interrupt is generated when coming out of Sleep Mode.

Data Sheet

CAN Normal Mode

CAN Wake Capable Mode

Action Due to a CAN Wake Up

SBC Mode after wake

Restart Mode

Stop Mode

Restart Mode

Normal Mode

Vcc1µC

Ramping up

Ramping up / ON

Ramping up

Table

), it automatically transfers the SBC into the SBC

6. After wake-up the transceiver can be switched

INT

HIGH

LOW

HIGH

LOW

Figure

High Speed CAN Transceiver

RxD

LOW

13. The microcontroller is

Rev. 1.0, 2009-03-31

TLE8264E

Int. Bit

WK CAN

TLE 8264E Infineon Technologies, TLE 8264E Datasheet - Page 32

TLE 8264E

Specifications of TLE 8264E

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