CS61584A-IQ5 Cirrus Logic Inc, CS61584A-IQ5 Datasheet - Page 20

CS61584A-IQ5

Manufacturer Part Number

CS61584A-IQ5

Description

Network Controller & Processor ICs IC 3.3V/5V Dual T1/ E1 Line Intrfc Unit

Manufacturer

Cirrus Logic Inc

Datasheet

1.CS61584A-IQ3Z.pdf (54 pages)

Specifications of CS61584A-IQ5

Product

Framer

Number Of Transceivers

Data Rate

2.048 Mbps

Supply Voltage (max)

3.465 V, 5.25 V

Supply Voltage (min)

3.135 V, 4.75 V

Maximum Operating Temperature

+ 85 C

Minimum Operating Temperature

- 40 C

Mounting Style

SMD/SMT

Package / Case

LQFP-64

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Bonase Electronics (HK) Co., Limited

Part Number:

CS61584A-IQ5

Manufacturer:

CRYSTAL

Quantity:

Company:

BOSTOCK HK LIMITED

Part Number:

CS61584A-IQ5Z

Manufacturer:

Cirrus Logic Inc

Quantity:

10 000

Company:

Meier Automation Equipment Co., Limited

Part Number:

CS61584A-IQ5Z

Manufacturer:

CIRRUS

Quantity:

20 000

Company:

BOSTOCK HK LIMITED

Part Number:

CS61584A-IQ5ZR

Manufacturer:

Cirrus Logic Inc

Quantity:

10 000

Current page: 20 of 54
Download datasheet (2Mb)

6. REFERENCE CLOCK

The CS61584A requires a reference clock with a

minimum accuracy of ±100 ppm for T1 and E1 ap-

plications. This clock can be either a 1X clock (i.e.,

1.544 MHz or 2.048 MHz), or can be a 8X clock

(i.e., 12.352 MHz or 16.384 MHz) as selected by

the 1XCLK pin. This clock may be supplied from

internal system timing or a CMOS crystal oscillator

and input to the REFCLK pin. An 8X quartz crystal

may be connected across the REFCLK and XTA-

LOUT pins and the 1XCLK pin set low. The quartz

crystal and CMOS crystal oscillator specifications

and are presented in the Applications section.

In systems with a jittered transmit clock, the refer-

ence clock should not be tied to the transmit clock

and a separate external quartz crystal or crystal os-

cillator should drive the reference clock input. Any

jitter present on the reference clock will not be fil-

tered by the jitter attenuator.

7. POWER-UP RESET

On power-up, the device is held in a static state un-

til the power supply achieves approximately 60%

of the power supply voltage. When this threshold is

crossed, the device waits another 10 ms to allow the

power supply to reach operating voltage and then

calibrates the transmit and receive circuitry. This

initial calibration takes less than 20 ms but can oc-

cur only if REFCLK and TCLK are present.

Power-up reset initializes the control logic and reg-

ister set and performs the same functions as the RE-

SET pin. During Host mode operation, a reset event

is indicated by the Latched-Reset bit in the Status

8. LINE CONTROL AND MONITORING

Line control and monitoring of the CS61584A may

be implemented in either Hardware or Host mode.

Hardware mode is selected when the MODE pin is

set low and allows the device to be configured and

monitored using control pins. Host mode is select-

ed when the MODE pin is set high and allows the

DS261PP5

device to be configured and monitored using an in-

ternal register set.

The following controls and indications are avail-

able in Hardware mode: line length selection, re-

ceive clock edge, jitter attenuator location, loss of

signal, transmit all ones, local loopback, remote

loopback, and power down. Host mode operation

offers several additional control options (refer to

the Host Mode section).

Note:

8.1

Hardware mode supports only transparent opera-

tion to permit the line code to be encoded and de-

coded by an external T1/E1 framing device.

Recovered data is output on the RNEG and RPOS

pins in NRZ format and transmitted data is input on

the TNEG and TPOS pins.

Host mode supports transparent, AMI, B8ZS, or

HDB3 line encoding and decoding for applications

not using an external T1/E1 framer (i.e. multiplex-

ers). The CODER, AMI-T, and AMI-R bits in the

Control A registers select the coder mode for a giv-

en channel. The selection of the transmit encoder is

independent from the selection of the receive de-

coder. When CODER = 1, the transmit data is input

to the encoder on TDATA and the receive data is

output from the decoder on RDATA in NRZ for-

mat.

8.2

During Host mode operation, the alarm indication

signal (AIS) is detected by the receiver and report-

ed using the AIS and Latched-AIS bits in the Status

registers. The receiver detects the AIS condition on

observation of 99.9% ones density in a 5.3 ms peri-

od (< 9 zeros in 8192 bits). If CODER = 1 in the

Control A registers, the TNEG pin becomes the

AIS output pin that is set high on detection of AIS.

The AIS condition is exited when 9 zeros are de-

tected in 8192 bits.

Line Code Encoder/Decoder

Alarm Indication Signal

Please refer to the Loop Selection Equations in

the Applications section.

CS61584A

DS261PP5

DS261F1

CS61584A-IQ5 Cirrus Logic Inc, CS61584A-IQ5 Datasheet - Page 20

CS61584A-IQ5

Specifications of CS61584A-IQ5

Available stocks

Related parts for CS61584A-IQ5