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参数资料
| 型号: | MPC992FA |
| 厂商: | INTEGRATED DEVICE TECHNOLOGY INC |
| 元件分类: | 时钟产生/分配 |
| 英文描述: | 375 MHz, PROC SPECIFIC CLOCK GENERATOR, PQFP32 |
| 封装: | LQFP-32 |
| 文件页数: | 5/8页 |
| 文件大小: | 312K |
| 代理商: | MPC992FA |
5
MOTOROLA
APPLICATIONS INFORMATION
Using the On–Board Crystal Oscillator
The MPC992 features an on–board crystal oscillator to allow
for seed clock generation as well as final distribution. The
on–board oscillator is completely self contained so that the only
external component required is the crystal. As the oscillator is
somewhat sensitive to loading on its inputs the user is advised
to mount the crystal as close to the MPC992 as possible to
avoid any board level parasitics. To facilitate co–location
surface mount crystals are recommended, but not required.
The oscillator circuit is a series resonant circuit as opposed
to the more common parallel resonant circuit, this eliminates
the need for large on–board capacitors. Because the design is
a series resonant design, for optimum frequency accuracy a
series resonant crystal should be used (see specification table
below). Unfortunately most off the shelf crystals are
characterized in a parallel resonant mode. However a parallel
resonant crystal is physically no different than a series resonant
crystal, a parallel resonant crystal is simply a crystal which has
been characterized in its parallel resonant mode. Therefore in
the majority of cases a parallel specified crystal can be used
with the MPC992 with just a minor frequency error due to the
actual series resonant frequency of the parallel resonant
specified crystal. Typically a parallel specified crystal used in a
series resonant mode will exhibit an oscillatory frequency a few
hundred ppm lower than the specified value. For most
processor implementations a few hundred ppm translates into
kHz inaccuracies, a level which does not represent a major
issue.
Figure 2 shows an optional series capacitor in the crystal
oscillator interface. The on–board oscillator introduces a small
phase shift in the overall loop which causes the oscillator to
operate at a frequency slightly slower than the specified crystal.
The series capacitor is used to compensate the loop and allow
the oscillator to function at the specified crystal frequency. If a
100ppm type error is not important, the capacitor can be left off
the PCB. For more detailed information, order Motorola
Application Note AN1579/D.
Figure 2. Recommended Crystal Interface
XTAL2
CTUNE
(Optional)
XTAL1
MPC992
Table 1. Crystal Specifications
Parameter
Value
Crystal Cut
Fundamental AT Cut
Resonance
Series Resonance*
Frequency Tolerance
±75ppm at 25°C
Frequency/Temperature Stability
±150ppm 0 to 70°C
Operating Range
0 to 70
°C
Shunt Capacitance
5–7pF
Equivalent Series Resistance (ESR)
50 to 80
max
Correlation Drive Level
100
W
Aging
5ppm/Yr (First 3 Years)
Power Supply Filtering
The MPC992 is a mixed analog/digital product and as such
it exhibits some sensitivities that would not necessarily be seen
on a fully digital product. Analog circuitry is naturally
susceptible to random noise, especially if this noise is seen on
the power supply pins. The MPC992 provides separate power
supplies for the digital circuitry (VCCI) and the internal PLL
(VCCA) of the device. The purpose of this design technique is
to try and isolate the high switching noise digital outputs from
the relatively sensitive internal analog phase–locked loop. In a
controlled environment such as an evaluation board this level
of isolation is sufficient. However, in a digital system
environment where it is more difficult to minimize noise on the
power supplies a second level of isolation may be required. The
simplest form of isolation is a power supply filter on the VCCA
pin for the MPC992.
Figure 3 illustrates a typical power supply filter scheme. The
MPC992 is most susceptible to noise with spectral content in
the 10kHz to 1MHz range. Therefore the filter should be
designed to target this range. The key parameter that needs to
be met in the final filter design is the DC voltage drop that will
be seen between the VCC supply and the VCCA pin of the
MPC992. From the data sheet the IVCCA current (the current
sourced through the VCCA pin) is typically 15mA (20mA
maximum), assuming that a minimum of 3.0V must be
maintained on the VCCA pin very little DC voltage drop can be
tolerated when a 3.3V VCC supply is used. The resistor shown
in Figure 3 must have a resistance of 10–15
to meet the
voltage drop criteria. The RC filter pictured will provide a
broadband filter with approximately 100:1 attenuation for noise
whose spectral content is above 20KHz. As the noise
frequency crosses the series resonant point of an individual
capacitor it’s overall impedance begins to look inductive and
thus increases with increasing frequency. The parallel
capacitor combination shown ensures that a low impedance
path to ground exists for frequencies well above the bandwidth
of the PLL.
MPC992
Low Voltage PECL PLL Clock Driver
NETCOM
IDT Low Voltage PECL PLL Clock Driver
Freescale Timing Solutions Organization has been acquired by Integrated Device Technology, Inc
MPC992
5
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相关代理商/技术参数 |
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|---|---|
| MPC993 | 制造商:MOTOROLA 制造商全称:Motorola, Inc 功能描述:Dynamic Switch PLL Clock Driver |
| MPC9992 | 制造商:MOTOROLA 制造商全称:Motorola, Inc 功能描述:3.3 DIFFRERENTIAL ECL/PECL PLL CLOCK GENERATOR |
| MPC9992AC | 功能描述:时钟发生器及支持产品 RoHS:否 制造商:Silicon Labs 类型:Clock Generators 最大输入频率:14.318 MHz 最大输出频率:166 MHz 输出端数量:16 占空比 - 最大:55 % 工作电源电压:3.3 V 工作电源电流:1 mA 最大工作温度:+ 85 C 安装风格:SMD/SMT 封装 / 箱体:QFN-56 |
| MPC9992ACR2 | 功能描述:时钟发生器及支持产品 RoHS:否 制造商:Silicon Labs 类型:Clock Generators 最大输入频率:14.318 MHz 最大输出频率:166 MHz 输出端数量:16 占空比 - 最大:55 % 工作电源电压:3.3 V 工作电源电流:1 mA 最大工作温度:+ 85 C 安装风格:SMD/SMT 封装 / 箱体:QFN-56 |
| MPC9992FA | 功能描述:锁相环 - PLL 2.5 3.3V 400MHz Clock Generator RoHS:否 制造商:Silicon Labs 类型:PLL Clock Multiplier 电路数量:1 最大输入频率:710 MHz 最小输入频率:0.002 MHz 输出频率范围:0.002 MHz to 808 MHz 电源电压-最大:3.63 V 电源电压-最小:1.71 V 最大工作温度:+ 85 C 最小工作温度:- 40 C 封装 / 箱体:QFN-36 封装:Tray |
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