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SI5325C-C-GM Datasheet, PDF (29/178 Pages) Silicon Laboratories – ANY-FREQUENCY PRECISION CLOCKS
Si53xx-RM
3.14. Si5369
The Si5369 is a jitter-attenuating precision clock multiplier for applications requiring sub 1 ps rms jitter
performance. The Si5369 accepts four clock inputs ranging from 2 kHz to 710 MHz and generates five
independent, synchronous clock outputs ranging from 2 kHz to 945 MHz and select frequencies to 1.4 GHz. The
device provides virtually any frequency translation combination across this operating range. The Si5369 input clock
frequency and clock multiplication ratio are programmable through an I2C or SPI interface. The DSPLL loop
bandwidth is digitally programmable, providing loop bandwidth values as low as 4 Hz. Operating from a single 1.8,
2.5, or 3.3 V supply, the Si5369 is ideal for providing clock multiplication and jitter attenuation in high performance
timing applications. See "6. Microprocessor Controlled Parts (Si5319, Si5324, Si5325, Si5326, Si5327, Si5328,
Si5367, Si5368, Si5369, Si5374, Si5375, and Si5376)" on page 63 for a complete description.
RATE[1:0] Xtal or Refclock
XB
XA
CKIN_1+
2
CKIN_1–
CKIN_2+
2
CKIN_2–
CKIN_3+
2
CKIN_3–
CKIN_4+
2
CKIN_4–
÷ N3_1
÷ N3_2
÷ N3_3
÷ N3_4
C1B
C2B
C3B
INT_ALM
C1A
C2A
CS0_C3A
CS1_C4A
LOL
f3
Control
DSPLL®
fx
fOSC
÷ N1_HS
÷ N2
CKOUT_2
CKIN_3
CKIN_4
FSYNC
LOGIC/
ALIGN
FSYNC
3
1
÷ NC1
0
1
÷ NC2
0
1
÷ NC3
0
÷ NC4 1
0
÷ NC5
1
0
BYPASS/DSBL2
2 CKOUT_1+
CKOUT_1–
2 CKOUT_2+
CKOUT_2–
DSBL2/BYPASS
2 CKOUT_3+
CKOUT_3–
DSBL34
2 CKOUT_4+
CKOUT_4–
2 CKOUT_5+
CKOUT_5–
DSBL5
VDD
GND
Figure 14. Si5369 Clock Multiplier and Jitter Attenuator Block Diagram
3.15. Si5374/75/76 Compared to Si5324/19/26
In general, the Si5374 can be viewed as a quad version of the Si5324, and the Si5375 can be viewed as a quad
version of the Si5319, and the Si5376 can be viewed as a quad version of the Si5326. However, they are not
exactly the same. This is an overview of the differences:
1. The Si5374/75/76 cannot use a crystal as its OSC reference. It requires the use of a single external single-
ended or differential crystal oscillator.
2. The Si5374/75/76 only supports I2C as its serial port protocol and does not have SPI. No I2C address pins are
available on the Si5374/75/76.
3. The Si5374/75/76 does not provide separate INT_CK1B and CK2B pins to indicate when CKIN1 and CKIN2 do
not have valid clock inputs. Instead, the IRQ pin can be programmed to function as one pin, the other pin or
both.
4. Selection of the OSC frequency is done by a register (RATE_REG), not by using the RATE pins.
5. The Si5374/75/76 uses a different version of DSPLLsim: Si537xDSPLLsim.
6. The Si5374/75/76 does not support 3.3 V operation.
Rev. 1.2
29