Si3454
Table 5. I2C Bus Timing Specifications1,2,3,4,5,6
Parameter
Symbol
Test Condition
Min Typ Max Unit
Serial Bus Clock Frequency
SCL High Time
SCL Low Time
Bus Free Time
fSCL
See Figure 5
0
— 800 kHz
tSKH
See Figure 5
300 —
—
ns
tSKL
See Figure 5
650 —
—
ns
tBUF
Between STOP and START con-
ditions. See Figure 5
650
—
—
ns
Start Hold Time
tSTH
Between START and first low
SCL. See Figure 5
300
—
—
ns
Start Setup Time
tSTS
Between SCL high and START
condition. See Figure 5
300
—
—
ns
Stop Setup Time
Data Hold Time
Data Setup Time
Time from Hardware or Soft-
ware Reset until Start of I2C
Traffic
tSPS
tDH
tDS
tRESET
Between SCL high and STOP
condition. See Figure 5
300
—
—
ns
See Figure 57
75
—
—
ns
See Figure 5
100 —
—
ns
Reset to start condition
5
—
—
ms
Notes:
1. All specification voltages are referenced with respect to AGND and DGND at ground. Currents are defined as positive
flowing into a pin and negative flowing out of a pin.
2. Not production tested (guaranteed by design).
3. All timing references measured at VIL and VIH.
4. SDAI must be low within ½ SCL clock cycle of SDAO going low for the following reasons:
a.) During a read transaction, if the Si3454 is letting SDAO go high and another device is driving SDAO low, this should
be recognized as bus contention, and the Si3454 should release the bus. If SDAO low is not present on SDAI within ½
clock cycle, the Si3454 will not recognize this as bus contention and will not release the bus.
b.) During any I2C transaction, the Si3454 will ACK (SDAO low) when its address is sent. The Si3454 “expects” that
SDAI will follow within ½ of the SCL clock cycle. If SDAI is not low, the Si3454 will release the bus.
5. SCL and SDA rise and fall times depend on bus pullup resistance and bus capacitance.
6. The time from a fault event to the INT pin being driven is software-defined. The Si3454 produces a new measurement
result for the Port voltage or current every 3 msec and every 6 msec for the power supplies and temperature. After
each port is monitored, the port status, port event registers, INT register, and INT pin are updated in sequence. For this
reason, the INT pin can lag the contents of the event registers by approximately 5 ms.
7. 250 ns minimum and 350 ns maximum for the case where the Si3454 is transmitting data.
Rev. 1.1
11