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SI5345 Datasheet, PDF (11/62 Pages) Silicon Laboratories – 10-CHANNEL, ANY-FREQUENCY, ANY-OUTPUT JITTER ATTENUATOR/CLOCK MULTIPLIER
Si5345/44/42
Table 5. Differential Clock Output Specifications (Continued)
(VDD = 1.8 V ±5%, VDDA = 3.3V ±5%, VDDO = 1.8 V ±5%, 2.5 V ±5%, or 3.3 V ±5%, TA = –40 to 85 °C)
Parameter
Power Supply Noise
Rejection4
Symbol
Test Condition
PSRR Normal Mode
10 kHz sinusoidal noise
100 kHz sinusoidal noise
500 kHz sinusoidal noise
1 MHz sinusoidal noise
Min Typ Max Unit
— –93 —
dBc
— –93 —
— –84 —
— –79 —
Low Power Mode
10 kHz sinusoidal noise
— –98 —
dBc
100 kHz sinusoidal noise
— –95 —
500 kHz sinusoidal noise
— –84 —
1 MHz sinusoidal noise
— –76 —
Output-output Crosstalk XTALK
Si5345
— –75 —
dBc
Measured spur from adjacent output5
Si5342/44
— –85 —
dBc
Measured spur from adjacent output5
Note:
1. For normal and low-power modes, the amplitude and common-mode settings are programmable through register
settings and can be stored in NVM. Each output driver can be programmed independently. The typical normal mode (or
low-power mode) LVDS maximum is 100 mV (or 80 mV) higher than the TIA/EIA-644 maximum. Also note that the
output voltage swing specifications are given in peak-to-peak single-ended swing.
2. Not all combinations of voltage swing and common mode voltages settings are possible. See the Si5345/44/42 Family
Reference Manual for details.
3. Driver output impedance depends on selected output mode (Normal, Low-Power).
4. Measured for 156.25 MHz carrier frequency. Sinewave noise added to VDDO
(1.8 V = 50 mVpp, 2.5 V/3.3 V = 100 mVpp) and noise spur amplitude measured.
5. Measured across two adjacent outputs, both in LVDS mode, with the victim running at 155.52 MHz and the aggressor
at 156.25 MHz. Refer to “AN862: Optimizing Si534x Jitter Performance in Next Generation Internet Infrastructure
Systems” for guidance on crosstalk optimization. Note that all active outputs must be terminated when measuring
crosstalk.
Rev. 1.0
11