CS61584A Datasheet, PDF(19/54 Page) Cirrus Logic

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CS61584A Datasheet, PDF (19/54 Pages) Cirrus Logic – DUAL T1/E1 LINE INTERFACE

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DS261PP5

CS61584A

the CLKE pin determines the clock polarity where

the output data is stable and valid as shown in

Table 2. During Host mode operation, the polarity

is established by the CLKE bit in the Control A reg-

ister. When CLKE is low, RPOS and RNEG (or

RDATA) are valid on the rising edge of RCLK.

When CLKE is high, RPOS and RNEG (or RDA-

TA) are valid on the falling edge of RCLK

During Host mode operation, the data at RPOS and

RNEG (or RDATA) may be forced to output an un-

framed all-ones pattern by setting both the

LLOOP1 and LLOOP2 bits in the Control B regis-

ter to "1".

CLKE

LOW

HIGH

DATA

RPOS, RNEG

or RDATA

RPOS, RNEG

or RDATA

CLOCK

RCLK

Clock edge for

valid data

Rising

Falling

Table 2. Recovered Data/Clock Options

Minimum Attenuation Limit

62411 Requirements

40 Maximum

Attenuation

50 Limit

E1 Mode

T1 Mode

Measured Performance

100

10 k

Frequency in Hz

Figure 17. Typical Jitter Transfer Function

5. JITTER ATTENUATOR

The jitter attenuator can be switched into either the

receive or transmit paths. Alternatively, it can also

be removed from both paths to reduce the propaga-

tion delay. Figure 14 illustrates the typical jitter at-

tenuation curves.

During Hardware mode operation, the location of

the jitter attenuators for both channels is controlled

by the ATTEN0 and ATTEN1 pins. During Host

mode operation, the location of the jitter attenua-

tors are independent and are controlled by the AT-

TEN[1:0] bits in the Control A registers. Table 3

shows how these pins are decoded.

The attenuator consists of a 64-bit FIFO, a narrow-

band monolithic PLL, and control logic. Signal jit-

ter is absorbed in the FIFO which is designed to

neither overflow nor underflow. If overflow or un-

derflow is imminent, the jitter transfer function is

altered to ensure that no bit-errors occur. Under this

condition, jitter gain may occur and external provi-

sions may be required. The jitter attenuator will

typically tolerate 43 UIs before the overflow/un-

derflow mechanism occurs. If the jitter attenuator

has not had time to "lock" to the average incoming

frequency (e.g. following a device reset) the atten-

uator will tolerate a minimum of 22 UIs before the

overflow/underflow mechanism occurs.

The jitter attenuator -3 dB knee frequency is 4.0 Hz

for T1 mode and 1.25 Hz for E1 mode as selected

by the CON[3:0] pins or register bits. A 1.25 Hz

knee for the E1 mode guarantees jitter attenuation

compliance to European specifications CTR 12 and

ETSI ETS 300 011. Setting ATTEN[1:0] = 11 will

place the jitter attenuator in the receive path with a

1.25 Hz knee for both T1 and E1 modes of opera-

tion.

For T1/E1 line cards used in high-speed mutiplex-

ers (e.g., SONET and SDH), the jitter attenuator is

typically used in the transmit path. The attenuator

can accept a transmit clock with gaps â¤ 28 UIs and

a transmit clock burst rate of â¤ 8 MHz.

ATTEN1 ATTEN0

Location of Jitter Attenuator

Receiver

Disabled

Transmitter

Receiver w/ 1.25 Hz knee

Table 3. Jitter Attenuation Control

DS261FP1P5

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