MC908AS60ACFU Datasheet, PDF(338/414 Page) Freescale Semiconductor, Inc – M68HC08 Microcontrollers

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MC908AS60ACFU Datasheet, PDF (338/414 Pages) Freescale Semiconductor, Inc – M68HC08 Microcontrollers

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Byte Data Link Controller (BDLC)

27.3.1.3 Run Mode

This mode is entered from the reset mode after all MCU reset sources are no longer asserted. Run mode

is entered from the BDLC wait mode whenever activity is sensed on the J1850 bus.

Run mode is entered from the BDLC stop mode whenever network activity is sensed, although messages

will not be received properly until the clocks have stabilized and the CPU is in run mode also.

In this mode, normal network operation takes place. The user should ensure that all BDLC transmissions

have ceased before exiting this mode.

27.3.1.4 BDLC Wait Mode

This power-conserving mode is entered automatically from run mode whenever the CPU executes a

WAIT instruction and if the WCM bit in the BCR1 register is cleared previously.

In this mode, the BDLC internal clocks continue to run. The first passive-to-active transition of the bus

generates a CPU interrupt request from the BDLC which wakes up the BDLC and the CPU. In addition,

if the BDLC receives a valid EOF symbol while operating in wait mode, then the BDLC also will generate

a CPU interrupt request which wakes up the BDLC and the CPU. See 27.7.1 Wait Mode.

27.3.1.5 BDLC Stop Mode

This power-conserving mode is entered automatically from run mode whenever the CPU executes a

STOP instruction or if the CPU executes a WAIT instruction and the WCM bit in the BCR1 register is set

previously.

In this mode, the BDLC internal clocks are stopped but the physical interface circuitry is placed in a

low-power mode and awaits network activity. If network activity is sensed, then a CPU interrupt request

will be generated, restarting the BDLC internal clocks. See 27.7.2 Stop Mode.

27.3.1.6 Digital Loopback Mode

When a bus fault has been detected, the digital loopback mode is used to determine if the fault condition

is caused by failure in the nodeâs internal circuits or elsewhere in the network, including the nodeâs analog

physical interface. In this mode, the transmit digital output pin (BDTxD) and the receive digital input pin

(BDRxD) of the digital interface are disconnected from the analog physical interface and tied together to

allow the digital portion of the BDLC to transmit and receive its own messages without driving the J1850

bus.

27.3.1.7 Analog Loopback Mode

Analog loopback is used to determine if a bus fault has been caused by a failure in the nodeâs off-chip

analog transceiver or elsewhere in the network. The BCLD analog loopback mode does not modify the

digital transmit or receive functions of the BDLC. It does, however, ensure that once analog loopback

mode is exited, the BDLC will wait for an idle bus condition before participation in network communication

resumes. If the off-chip analog transceiver has a loopback mode, it usually causes the input to the output

drive stage to be looped back into the receiver, allowing the node to receive messages it has transmitted

without driving the J1850 bus. In this mode, the output to the J1850 bus is typically high impedance. This

allows the communication path through the analog transceiver to be tested without interfering with

network activity. Using the BDLC analog loopback mode in conjunction with the analog transceiverâs

loopback mode ensures that, once the off-chip analog transceiver has exited loopback mode, the BCLD

will not begin communicating before a known condition exists on the J1850 bus.

MC68HC908AZ60A â¢ MC68HC908AS60A â¢ MC68HC908AS60E Data Sheet, Rev. 6

338

Freescale Semiconductor

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