T7115AMCD LSI, T7115AMCD Datasheet - Page 5

T7115AMCD

Manufacturer Part Number

T7115AMCD

Description

Manufacturer

LSI

Datasheet

1.T7115AMCD.pdf (68 pages)

Specifications of T7115AMCD

Package Type

PLCC

Lead Free Status / Rohs Status

Not Compliant

Current page: 5 of 68
Download datasheet (686Kb)

Data Sheet

April 1997

Lucent Technologies Inc.

Pin Information

Table 2. Pin Descriptions

7—10

2—5,

6, 22

AD0—AD7

Symbol

RESET

ALE

INT

(continued)

Type

I/O

—

Address Latch Enable. A high-to-low transition on this pin latches the register

address on pins AD3—AD0. ALE should be held high in the demultiplexed (sep-

arate address/data) mode. ALE latches the address regardless of the state of

Address/Data Bus. The data bus direction is controlled by the logic states of

the

address information during read or write cycles on AD6, AD3—AD0 synchro-

nized to the ALE signal. During read cycles, data is available to the micropro-

cessor on AD7—AD0. During write cycles, data is supplied by the

microprocessor on these lines. When

placed in a high-impedance state (3-state). AD0 is the least signiﬁcant

address/data bit.

Block move is available in MUXed address and data mode by setting the BM bit

in register 0 (R0—B3) to 1 and holding AD6 high during the address cycle of the

ALE. All writes then go directly to the transmit FIFO, and all reads address the

receive FIFO. Normal ALE mode addressing is accomplished by holding AD6

low during the ALE address cycle. Block move can be disabled by clearing the

BM bit to 0.

Ground.

Write (Active-Low). This signal controls when data is written to the registers.

When

microprocessor. The chip latches the data on the rising edge of

Read (Active-Low). This signal is used to read data from the registers. When

AD0 to be read by the microprocessor.

Chip Select (Active-Low). This signal must be low for the internal registers to

be read or written.

Interrupt. An interrupt signal is generated when any of the interrupting condi-

tions are true. The interrupt signal remains active until the microprocessor reads

the interrupt status register (R15) if DINT (R0—B0) = 0, or until the condition

causing the interrupt is alleviated if DINT = 1. Interrupts can be masked by

appropriately setting the corresponding interrupt enable bits in the interrupt

mask register (R14). The polarity of the interrupt signal output is controlled by

the IPOL bit in register 0 (R0—B1). This pin is not an open-drain output.

Reset. A high on this pin resets the device and forces a high-impedance

(3-state) condition on all outputs. All register bits are forced to their reset values.

(See Register section for more details.) A reset must be performed upon pow-

erup. A full chip reset occurs with or without a clock input.

Frame Synchronization. This signal marks the beginning of a TDM highway

frame. The polarity of the input pulse can be adjusted via the FSPOL bit in regis-

ter 0 (R0—B6). Individual time slots are assigned relative to the detection of FS

by the use of registers 7—11. When HWYEN (R0—B7) is 0, the input to this pin

is ignored.

and

, and

are low, the chip makes the requested data available on lines AD7—

are low, valid data is supplied on lines AD7—AD0 by the

pins. Microprocessors using a multiplexed bus supply

T7121 HDLC Interface for ISDN (HIFI-64)

Name/Function

is not active, the AD7—AD0 pins are

T7115AMCD LSI, T7115AMCD Datasheet - Page 5

T7115AMCD

Specifications of T7115AMCD

Related parts for T7115AMCD