MC68MH360EM33L Freescale Semiconductor, MC68MH360EM33L Datasheet - Page 657

MC68MH360EM33L

Manufacturer Part Number

MC68MH360EM33L

Description

IC MPU QUICC ETHER 33MHZ 240FQFP

Manufacturer

Freescale Semiconductor

Datasheet

1.MC68MH360ZP33L.pdf (962 pages)

Specifications of MC68MH360EM33L

Processor Type

M683xx 32-Bit

Speed

33MHz

Voltage

Mounting Type

Surface Mount

Package / Case

240-FQFP

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

Features

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The PIP shares several registers with the SMC2 serial channel. SMC2 is not available and

should not be enabled if the PIP is used. If SMC2 is enabled, erratic behavior will occur.

7.13.3 General-Purpose I/O Pins (Port B)

In this configuration, the PIP is not used, but rather operates as general-purpose parallel I/

O port B. See 7.14.7 Port B Registers for more details.

7.13.4 Interlocked Data Transfers

In the interlocked handshake mode, the PIP may be configured as a transmitter or a

receiver. This configuration allows a fast connection between QUICCs, and may be used for

the P1284-protocol advanced byte transfer mode.

The interlocked handshake mode may be controlled by the RISC or the CPU32+ core. Oper-

ation using the RISC requires BDs and parameter RAM initialization very similar to the other

serial channels. Data is then stored in the buffers using one of the SDMA channels (one of

the available channels from SMC2). Operation by the CPU32+ core is performed by soft-

ware-controlled reads and writes from/to the PIP data register upon interrupt request.

When configured as a transmitter, the STBO pin (PB16) is used as a strobe output (STB)

handshake control signal, and the STBI pin (PB17) is used as an acknowledge (ACK) input.

When configured as a receiver, the PIP generates the ACK signal on the STBO pin and

inputs the STB signal on the STBI pin.

Bits PB16 and PB17 in the port B data direction register (PBDIR) and the port B data register

(PBDAT) corresponding to STBO and STBI are not valid and are ignored by the PIP in the

interlocked handshake mode.

When the PIP is in this mode and is configured as a transmitter, the RISC controller loads

data into the output latch when it receives a request to begin transfers from the host proces-

sor (see Figure 7-85). Once data is loaded, after a programmable setup time, the STB signal

is asserted (low). Then when ACK is sampled as low, the data is transmitted, followed by

the STB being negated (high). STB remains high until new data is loaded into the output

latch and ACK is negated (high).

When the PIP is configured as a receiver, input data is latched when the STB signal is sam-

pled as low. The ACK signal is then asserted. ACK will be negated (high) when the data has

been removed from the input latch.

MOTOROLA

At the time of writing, RISC operation of the PIP has not been

fully defined. The user should use the CPU32+ core operation

mode, until such time as RISC microcode becomes available or

the full PIP microcode is available in the RISC internal ROM.

Please contact the local Motorola sales representative to obtain

the current status of the PIP RISC microcode. In the following

description, the RISC reads and writes of the data register are

replaced by CPU32+ core reads and writes.

Freescale Semiconductor, Inc.

For More Information On This Product,

MC68360 USER’S MANUAL

Go to: www.freescale.com

NOTE

Parallel Interface Port (PIP)

7-333

MC68MH360EM33L Freescale Semiconductor, MC68MH360EM33L Datasheet - Page 657

MC68MH360EM33L

Specifications of MC68MH360EM33L

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