SI8600AC-B-ISR Silicon Laboratories, SI8600AC-B-ISR Datasheet - Page 16

SI8600AC-B-ISR

Manufacturer Part Number

SI8600AC-B-ISR

Description

3.75 kVrms 2-channel bi-directional and 1-channel uni-directional 12C digital isolator -- Channel Type: Bidirectional...

Manufacturer

Silicon Laboratories

Datasheet

1.SI8631BC-B-IS1R.pdf (38 pages)

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Si860x

3.3. I

Table 13 lists the I

3.4. I

The first step in applying an I

Ideally, it should be the side which:

1. Is compatible with the range of bus pull up specified by the manufacturer. For example, the Si8600/02/05/06

2. Has the highest input low level for devices on the bus. Some devices may specify an input low of 0.9 V and

3. Have devices on the bus that can pull down below the isolator input low level. For example, the Si860x input

4. Has the lowest noise. Due to the special logic levels, noise margins can be as low as 50 mV.

Design Constraint

To prevent the latch condition, the

isolator output low level must be

greater than the isolator input low

level.

The bus output low must be less

than the isolator input low logic

level.

The isolator output low must be

less than the bus input low.

isolators are normally used with a pull up of 0.5 mA to 3 mA.

other devices might require an input low of 0.3 x Vdd. Assuming a 3.3 V minimum power supply, the side with

an input low of 0.3 x Vdd is the better side because this side has an input low level of 1.0 V.

level is 0.41 V. As most CMOS devices can pull to within 0.4 V of GND this is generally not an issue.

C Isolator Design Constraints

C Isolator Design Considerations

C isolator design constraints.

C isolator is to choose which side of the bus will be connected to the isolator A side.

Bus V

∆VSDA1, ∆VSCL1 = 50 mV minimum

Table 13. Design Constraints

Isolator V

Input/Output Logic Low Level

Bus V

Isolator V

0.3 x V

Data Sheet Values

Difference

= 0.4 V maximum

= 0.41 V minimum

Rev. 1.1

= 0.8 V maximum

= 1.0 V minimum for

= 3.3 V

0.5 V typical

0.7 V typical

This is normally guaranteed by the

isolator data sheet. However, if the

pull up strength is too weak, the out-

put low voltage will fall and can get

too close to the input low logic level.

These track over temperature.

If the pull up strength is too large,

the devices on the bus might not pull

the voltage below the input low

range. These have opposite temper-

ature coefficients. Worst case is hot

temperature.

If the pull up strength is too large,

the isolator might not pull below the

bus input low voltage.

Si8600/02/05/06 Vol: –1.8 mV/C

CMOS buffer: –0.6 mV/C

This provides some temperature

tracking, but worst case is cold tem-

perature.

Effect of Bus Pull-up Strength

and Temperature

SI8600AC-B-ISR Silicon Laboratories, SI8600AC-B-ISR Datasheet - Page 16

SI8600AC-B-ISR

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