Boundary-scan and the two- wire interface, Atmega32(l), Figure 117. general port pin schematic diagram – Rainbow Electronics ATmega32L User Manual

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ATmega32(L)

2503C–AVR–10/02

Figure 117. General Port Pin Schematic Diagram

(1)

Note:

1. See Boundary-scan descriptin for details.

Boundary-scan and the Two-
wire Interface

The 2 Two-wire Interface pins SCL and SDA have one additional control signal in the
scan-chain; Two-wire Interface Enable – TWIEN. As shown in Figure 118, the TWIEN
signal enables a tri-state buffer with slew-rate control in parallel with the ordinary digital
port pins. A general scan cell as shown in Figure 122 is attached to the TWIEN signal.

Notes:

1. A separate scan chain for the 50 ns spike filter on the input is not provided. The ordi-

nary scan support for digital port pins suffice for connectivity tests. The only reason
for having TWIEN in the scan path, is to be able to disconnect the slew-rate control
buffer when doing boundary-scan.

2. Make sure the OC and TWIEN signals are not asserted simultaneously, as this will

lead to drive contention.

CLK

RPx

RRx

WPx

RDx

WDx

PUD

SYNCHRONIZER

WDx:

WRITE DDRx

WPx:

WRITE PORTx

RRx:

READ PORTx REGISTER

RPx:

READ PORTx PIN

PUD:

PULLUP DISABLE

CLK :

I/O CLOCK

RDx:

READ DDRx

D

L

Q

Q

RESET

RESET

Q

Q

D

Q

Q

D

CLR

PORTxn

Q

Q

D

CLR

DDxn

PINxn

D

ATA

B

U

S

SLEEP

SLEEP:

SLEEP CONTROL

Pxn

I/O

I/O

PUExn

OCxn

ODxn

IDxn

PUExn:

PULLUP ENABLE for pin Pxn

OCxn:

OUTPUT CONTROL for pin Pxn

ODxn:

OUTPUT DATA to pin Pxn

IDxn:

INPUT DATA from pin Pxn