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参数资料
| 型号: | MPC92429EI |
| 厂商: | IDT, Integrated Device Technology Inc |
| 文件页数: | 11/13页 |
| 文件大小: | 0K |
| 描述: | IC SYNTHESIZER LVPECL 28-PLCC |
| 标准包装: | 37 |
| 类型: | 时钟/频率合成器 |
| PLL: | 是 |
| 输入: | 晶体 |
| 输出: | LVPECL |
| 电路数: | 1 |
| 比率 - 输入:输出: | 1:1 |
| 差分 - 输入:输出: | 无/是 |
| 频率 - 最大: | 400MHz |
| 除法器/乘法器: | 是/无 |
| 电源电压: | 3.135 V ~ 3.465 V |
| 工作温度: | -40°C ~ 85°C |
| 安装类型: | 表面贴装 |
| 封装/外壳: | 28-LCC(J 形引线) |
| 供应商设备封装: | 28-PLCC(11.5x11.5) |
| 包装: | 管件 |
MPC92429 REVISION 3 DECEMBER 14, 2012
7
2012 Integrated Device Technology, Inc.
MPC92429 Data Sheet
400 MHz Low Voltage PECL Clock Synthesizer
Substituting N for the four available values for N (1, 2, 4, 8)
yields:
Example Frequency Calculation for an 16 MHz Input
Frequency
If an output frequency of 131 MHz was desired the
following steps would be taken to identify the appropriate M
and N values. According to Table 8, 131 MHz falls in the
frequency set by an value of 2 so N[1:0] = 01. For N = 2 the
output frequency is FOUT = M 2 and M = FOUT x 2.
Therefore M = 2 x 131 = 262, so M[8:0] = 100000110.
Following this procedure a user can generate any whole
frequency between 25 MHz and 400 MHz. Note than for
N > 2 fractional values of can be realized. The size of the
programmable frequency steps (and thus the indicator of the
fractional output frequencies achievable) will be equal to:
fSTEP = fXTAL 16 N(5)
APPLICATIONS INFORMATION
Using the Parallel and Serial Interface
The M and N counters can be loaded either through a
parallel or serial interface. The parallel interface is controlled
via the P_LOAD signal such that a LOW-to-HIGH transition
will latch the information present on the M[8:0] and N[1:0]
inputs into the M and N counters. When the P_LOAD signal
is LOW the input latches will be transparent and any changes
on the M[8:0] and N[1:0] inputs will affect the FOUT output
pair. To use the serial port the S_CLOCK signal samples the
information on the S_DATA line and loads it into a 14 bit shift
register. Note that the P_LOAD signal must be HIGH for the
serial load operation to function. The Test register is loaded
with the first three bits, the N register with the next two and
the M register with the final eight bits of the data stream on
the S_DATA input. For each register the most significant bit is
loaded first (T2, N1 and M8). A pulse on the S_LOAD pin after
the shift register is fully loaded will transfer the divide values
into the counters. The HIGH-to-LOW transition on the
S_LOAD input will latch the new divide values into the
counters. Figure 4 illustrates the timing diagram for both a
parallel and a serial load of the MPC92429 synthesizer.
M[8:0] and N[1:0] are normally specified once at power-up
through the parallel interface, and then possibly again
through the serial interface. This approach allows the
application to come up at one frequency and then change or
fine-tune the clock as the ability to control the serial interface
becomes available.
Using the Test and Diagnosis Output TEST
The TEST output provides visibility for one of the several
internal nodes as determined by the T[2:0] bits in the serial
configuration stream. It is not configurable through the
parallel interface. Although it is possible to select the node
that represents FOUT, the CMOS output is not able to toggle
fast enough for higher output frequencies and should only be
used for test and diagnosis. The T2, T1 and T0 control bits
are preset to ‘000' when P_LOAD is LOW so that the PECL
FOUT outputs are as jitter-free as possible. Any active signal
on the TEST output pin will have detrimental affects on the
jitter of the PECL output pair. In normal operations, jitter
specifications are only guaranteed if the TEST output is
static. The serial configuration port can be used to select one
of the alternate functions for this pin. Most of the signals
available on the TEST output pin are useful only for
performance verification of the MPC92429 itself. However
the PLL bypass mode may be of interest at the board level for
functional debug. When T[2:0] is set to 110 the MPC92429 is
placed in PLL bypass mode. In this mode the S_CLOCK input
is fed directly into the M and N dividers. The N divider drives
the FOUT differential pair and the M counter drives the TEST
output pin. In this mode the S_CLOCK input could be used for
low speed board level functional test or debug. Bypassing the
PLL and driving FOUT directly gives the user more control on
the test clocks sent through the clock tree. Figure 6 shows
the functional setup of the PLL bypass mode. Because the
S_CLOCK is a CMOS level the input frequency is limited to
200 MHz. This means the fastest the FOUT pin can be toggled
via the S_CLOCK is 100 MHz as the divide ratio of the
Post-PLL divider is 2 (if N = 1). Note that the M counter output
on the TEST output will not be a 50% duty cycle.
Table 8. Output Frequency Range for fXTAL = 16 MHz
N
FOUT
FOUT Range
FOUT Step
1
0
Value
0
1
M
200 – 400 MHz
1 MHz
0
1
2
M
2
100 – 200 MHz
500 kHz
1
0
4
M
4
50 – 100 MHz
250 kHz
1
8
M
8
25 – 50 MHz
125 kHz
Table 9. Test and Debug Configuration for TEST
T[2:0]
TEST Output
T2
T1
T0
0
14-bit shift register out(1)
1. Clocked out at the rate of S_CLOCK.
0
1
Logic 1
0
1
0
fXTAL 16
0
1
M-Counter out
1
0
FOUT
1
0
1
Logic 0
1
0
M-Counter out in PLL-bypass mode
1
FOUT
4
Table 10. Debug Configuration for PLL Bypass(1)
1. T[2:0] = 110. AC specifications do not apply in PLL bypass
mode.
Output
Configuration
FOUT
S_CLOCK
N
TEST
M-Counter out(2)
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