Si53xx-RM
Rev. 0.5 31
3.16. Si5375
The Si5375 is a highly integrated, 4-PLL jitter-attenuating precision clock multiplier for applications requiring sub 1
ps jitter performance. Each of the DSPLL® clock multiplier engines accepts an input clock ranging from 2 kHz to
710 MHz and generates an output clock ranging from 2 kHz to 808 MHz. Each DSPLL provides virtually any
frequency translation combination across this operating range. For asynchronous, free-running clock generation
applications, the Si5375’s reference oscillator can be used as a clock source for any of the four DSPLLs. The
Si5375 input clock frequency and clock multiplication ratio are programmable through an I2C interface. The Si5375
is based on Silicon Laboratories' third-generation DSPLL® technology, which provides any-frequency synthesis
and jitter attenuation in a highly integrated PLL solution that eliminates the need for external VCXO and loop filter
components. Each DSPLL loop bandwidth is digitally programmable from 60 Hz to 8 kHz, providing jitter
performance optimization at the application level. The device operates from a single 1.8 or 2.5 V supply with on-
chip voltage regulators with excellent PSRR. The Si5375 is ideal for providing clock multiplication and jitter
attenuation in high port count optical line cards requiring independent timing domains.
Figure 15. Si5375 Functional Block Diagram
CKIN1P_B
÷ N31
DSPLL
®
B
CKIN1N_B
÷ N32
f
OSC
÷ NC1_HS
Input
Monitor
f
3
÷ N2
Status / Control
PLL Bypass
High PSRR
Voltage Regulator
VDD_q
GND
Synthesis Stage
CKIN1P_A
CKOUT1N_A
÷ N31
DSPLL
®
A
CKIN1N_A
÷ N32
CKOUT1P_A
Output Stage
f
OSC
÷ NC1_HS
Input
Monitor
f
3
÷ N2
PLL Bypass
Input Stage
CKIN1P_D
÷ N31
DSPLL
®
D
CKIN1N_D
÷ N32
f
OSC
÷ NC1_HS
Input
Monitor
f
3
÷ N2
PLL Bypass
CKIN1P_C
÷ N31
DSPLL
®
C
CKIN1N_C
÷ N32
f
OSC
÷ NC1_HS
Input
Monitor
f
3
÷ N2
PLL Bypass
RSTL_q
CS_q
SCL SDA
LOL_q
IRQ_q
Low Jitter
XO or Clock
OSC_P/N
÷ NC1
PLL Bypass
CKOUT1N_B
÷ NC1
PLL Bypass
CKOUT1P_B
CKOUT1N_C
PLL Bypass
CKOUT1P_C
÷ NC1
CKOUT1N_D
÷ NC1
PLL Bypass
CKOUT1P_D