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Motorola Semiconductors |
MOTOROLA
SEMICONDUCTOR TECHNICAL DATA
Order Number: MPC9774/D
Rev 1, 04/2002
Product Preview
3.3V/2.5V 1:14 LVCMOS PLL
Clock Generator
The MPC9774 is a 3.3V or 2.5V compatible, 1:14 PLL based clock
generator targeted for high performance low-skew clock distribution in
mid-range to high-performance networking, computing and telecom
applications. With output frequencies up to 125 MHz and output skews
less than 300 ps1 the device meets the needs of the most demanding
clock applications.
Features
• 1:14 PLL based low-voltage clock generator
• 2.5V or 3.3V power supply
• Internal power–on reset
• Generates clock signals up to 125 MHz
• Maximum output skew of 300 ps1
• Two LVCMOS PLL reference clock inputs
• External PLL feedback supports zero-delay capability
• Various feedback and output dividers (see application section)
• Supports up to three individual generated output clock frequencies
• Drives up to 28 clock lines
• Ambient temperature range 0°C to +85°C
• Pin and function compatible to the MPC974
MPC9774
3.3V/2.5V 1:14 LVCMOS
PLL CLOCK GENERATOR
FA SUFFIX
52 LEAD LQFP PACKAGE
CASE 848D
Functional Description
The MPC9774 utilizes PLL technology to frequency lock its outputs onto an input reference clock. Normal operation of the
MPC9774 requires the connection of the PLL feedback output QFB to feedback input FB_IN to close the PLL feedback path. The
reference clock frequency and the divider for the feedback path determine the VCO frequency. Both must be selected to match
the VCO frequency range.
The MPC9774 features frequency programmability between the three output banks outputs as well as the output to input
relationships. Output frequency ratios of 1:1, 2:1, 3:1, 3:2 and 3:2:1 can be realized. Additionally, the device supports a separate
configurable feedback output which allows for a wide variety of of input/output frequency multiplication alternatives. The
VCO_SEL pin provides an extended PLL input reference frequency range.
The REF_SEL pin selects the internal crystal oscillator or the LVCMOS compatible inputs as the reference clock signal. Two
alternative LVCMOS compatible clock inputs are provided for clock redundancy support. The PLL_EN control selects the PLL
bypass configuration for test and diagnosis. In this configuration, the selected input reference clock is routed directly to the output
dividers bypassing the PLL. The PLL bypass is fully static and the minimum clock frequency specification and all other PLL
characteristics do not apply.
The MPC9774 has an internal power–on reset.
The MPC9774 is fully 2.5V and 3.3V compatible and requires no external loop filter components. All inputs (except XTAL)
accept LVCMOS signals while the outputs provide LVCMOS compatible levels with the capability to drive terminated 50 Ω
transmission lines. For series terminated transmission lines, each of the MPC9774 outputs can drive one or two traces giving the
devices an effective fanout of 1:12. The device is pin and function compatible to the MPC974 and is packaged in a 52-lead LQFP
package.
1. Final specification of this parameter is pending characterization.
This document contains information on a product under development. Motorola reserves the right to change or discontinue this product without notice.
© Motorola, Inc. 2002
1
MPC9774
CCLK0
CCLK1
CCLK_SEL
VCC
0
1
All input resistors have a value of 25kΩ
Ref VCO
PLL
0
1
÷2 0
÷4 1
200-500 MHz
VCC
FB_IN
PLL_EN
VCO_SEL
FSEL_A
FSEL_B
FSEL_C
FSEL_FB[1:0]
FB
2
÷2, ÷4
÷2, ÷4
÷4, ÷6
÷4, ÷6, ÷8, ÷12
VCC
CLK_STOP
VCC
MR/OE
POWER–ON RESET
Figure 1. MPC9774 Logic Diagram
Bank A
CLK
STOP
Bank B
CLK
STOP
Bank C
CLK
STOP
QA0
QA1
QA2
QA3
QA4
QB0
QB1
QB2
QB3
QB4
QC0
QC1
QC2
QC3
QFB
QB0
VCC
NC
GND
QC3
VCC
QC2
GND
QC1
VCC
QC0
GND
VCO_SEL
39 38 37 36 35 34 33 32 31 30 29 28 27
40 26
41 25
42 24
43 23
44 22
45 21
46
MPC9774
20
47 19
48 18
49 17
50 16
51 15
52 14
1 2 3 4 5 6 7 8 9 10 11 12 13
VCC
QA0
GND
QA1
VCC
QA2
FSEL_FB1
GND
QA3
VCC
QA4
GND
FSEL_FB0
MOTOROLA
Figure 2. MPC9774 52–Lead Package Pinout (Top View)
2
TIMING SOLUTIONS
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