11274-901 查看數據表（PDF） - AMI Semiconductor

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11274-901

Programmable Line Lock Clock Generator IC

AMI Semiconductor 

FS6131-01

Programmable Line Lock Clock Generator IC

4.5.1.2 Out-Of-Range High/Low

The direction the loop has gone out-of-range can be de-

termined by clearing STAT[1] to zero and setting STAT[0]

bit to one. If the CMOS bit is set to one, the LOCK/IPRG

pin will go high if the Crystal Loop went out of range high.

If the pin goes to a logic-low, the loop went out of range

low.

The out-of-range information is also available under soft-

ware control by reading back the STAT[1] bit, which is

overwritten by the flag (high = out-of-range high, low =

out-of-range low) in this mode. The bit is set or cleared

only if the Crystal Loop loses lock (see Table 6).

4.7 Differential Output Stage

The differential output stage supports both CMOS and

pseudo-ECL (PECL) signals. The desired output interface

is chosen via the program registers (see Table 4).

If a PECL interface is used, the transmission line is usu-

ally terminated using a Thévenin termination. The output

stage can only sink current in the PECL mode, and the

amount of sink current is set by a programming resistor

on the LOCK/IPRG pin. The ratio of IPRG current to out-

put drive current is shown in Figure 12. Source current is

provided by the pull-up resistor that is part of the

Thévenin termination.

4.5.1.3 Crystal Loop Disable

The Crystal Loop is disabled by setting the XLPDEN bit

to a logic-high (1). The bit disables the charge pump cir-

cuit in the loop.

Setting the XLPDEN bit low (0) permits the crystal loop to

operate as a control loop.

4.6 Connecting the FS6131 to an

External Reference Frequency

If a crystal oscillator is not used, tie XIN to ground and

shut down the crystal oscillator by setting XLROM[2:0]=1.

The REF and FBK pins do not have pull-up or pull-down

current, but do have a small amount of hysteresis to re-

duce the possibility of extra edges. Signals may be AC-

coupled into these inputs with an external DC-bias circuit

to generate a DC-bias of 2.5V. Any Reference or Feed-

back signal should be square for best results, and the

signals should be rail-to-rail. Unused inputs should be

grounded to avoid unwanted signal injection.

Figure 12: IPRG to CLKP/CLKN Current

25.0

20.0

15.0

10.0

5.0

0.0

0

20

40

60

80

CLKP/CLKN PECL Output Current (mA)

8

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