Si860x Data Sheet
Bidirectional I2C Isolators with Unidirectional Digital Channels
I2C
The Si860x series of isolators are single-package galvanic isolation solutions for
and SMBus serial port applications. These products are based on Skyworks proprietary
RF isolation technology and offer shorter propagation delays, lower power consumption,
smaller installed size, and more stable operation with temperature and age versus opto
couplers or other digital isolators.
All devices in this family include hot-swap, bidirectional SDA and/or SCL isolation channels with open-drain, 35 mA sink capability that operate to a maximum frequency of
1.7 MHz. The 8-pin version (Si8600) supports bidirectional SDA and SCL isolation; the
Si8602 supports bidirectional SDA and unidirectional SCL isolation, and the 16-pin versions (Si8605, Si8606) feature two unidirectional isolation channels to support additional
system signals, such as interrupts or resets. All versions contain protection circuits to
guard against data errors when an unpowered device is inserted into a powered system.
Small size, low installed cost, low power consumption, and short propagation delays
make the Si860x family the optimum solution for isolating I2C and SMBus serial ports.
Automotive Grade is available for certain part numbers. These products are built using
automotive-specific flows at all steps in the manufacturing process to ensure the robustness and low defectivity required for automotive applications.
Industrial Applications
• Isolated I2C, SMBus
• Isolated digital power supply communications
• Power over Ethernet
• Motor Control Systems
• Hot-swap applications
• Intelligent Power systems
Automotive Applications
• On-board chargers
• Battery management systems
• Charging stations
• Traction inverters
• Hybrid Electric Vehicles
• Battery Electric Vehicles
KEY FEATURES
• Independent, bidirectional SDA and SCL
isolation channels
• Open drain outputs with 35 mA sink
current
• Supports I2C clocks up to 1.7 MHz
• Unidirectional isolation channels support
additional system signals (Si8605, Si8606)
• Up to 5000 VRMS isolation
• UL, CSA, VDE, CQC recognition
• 60-year life at rated working voltage
• High electromagnetic immunity
• Wide operating supply voltage
• 3.0 to 5.5 V
• Wide temperature range
• –40 to +125 °C
• Transient immunity 50 kV/µs
• AEC-Q100 qualification
• RoHS-compliant packages
• SOIC-8 narrow body
• SOIC-16 wide body
• SOIC-16 narrow body
• Automotive-grade OPNs available
• AIAG compliant PPAP documentation
support
• IMDS and CAMDS listing support
Safety Regulatory Approvals
• UL 1577 recognized
• Up to 5000 VRMS for 1 minute
• CSA component notice 5A approval
• IEC 60950-1, 61010-1, 60601-1 (reinforced insulation)
• VDE certification conformity
• Si863xxT options certified to reinforced VDE 0884-10
• All other options certified to IEC
60747-5-5 and reinforced 60950-1
• CQC certification approval
• GB4943.1
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�Si860x Data Sheet • Ordering Guide
1. Ordering Guide
Industrial and Automotive Grade OPNs
Industrial-grade devices (part numbers having an “-I” in their suffix) are built using well-controlled, high-quality manufacturing flows to
ensure robustness and reliability. Qualifications are compliant with JEDEC, and defect reduction methodologies are used throughout
definition, design, evaluation, qualification, and mass production steps.
Automotive-grade devices (part numbers having an “-A” in their suffix) are built using automotive-specific flows at all steps in the
manufacturing process to ensure robustness and low defectivity. These devices are supported with AIAG-compliant Production Part
Approval Process (PPAP) documentation, and feature International Material Data System (IMDS) and China Automotive Material
Data System (CAMDS) listing. Qualifications are compliant with AEC-Q100, and a zero-defect methodology is maintained throughout
definition, design, evaluation, qualification, and mass production steps.
Table 1.1. Ordering Guide1, 2, 3, 4
Number of
Number of
Max I2C
Bidirectional
Unidirectional
Bus
Speed
I2C
(MHz)
Non-I2C Channels
Channels
Max DataRate of
Non-I2C
Unidirectional
Channels (Mbps)
Isolation
Ratings
(kVrms)
Package
0
—
2.5
NB SOIC-8
1.7
0
—
3.75
NB SOIC-8
2
1.7
0
—
5.0
WB SOIC-16
Si8602AB-AS
1
1.7
1
10
2.5
NB SOIC-8
Si8602AC-B-IS
Si8602AC-AS
1
1.7
1
10
3.75
NB SOIC-8
Si8602AD-B-IS
Si8602AD-AS
1
1.7
1
10
5.0
WB SOIC-16
Si8605AB-B-IS1 Si8605AB-AS1
2
1.7
1 Forward
1 Reverse
10
2.5
NB SOIC-16
Si8605AC-B-IS1 Si8605AC-AS1
2
1.7
1 Forward
1 Reverse
10
3.75
NB SOIC-16
Si8605AD-B-IS
Si8605AD-AS
2
1.7
1 Forward
1 Reverse
10
5.0
WB SOIC-16
Si8606AC-B-IS1 Si8606AC-AS1
2
1.7
2 Forward
10
3.75
NB SOIC-16
Si8606AD-B-IS
2
1.7
2 Forward
10
5.0
WB SOIC-16
Ordering Part
Number (OPN)
Automotive
OPNs5, 6
Si8600AB-B-IS
Si8600AB-AS
2
1.7
Si8600AC-B-IS
Si8600AC-AS
2
Si8600AD-B-IS
Si8600AD-AS
Si8602AB-B-IS
Si8606AD-AS
Note:
1. All packages are RoHS-compliant with peak reflow temperature of 260 °C according to the JEDEC industry standard classifications and peak solder temperature.
2. “Si” and “SI” are used interchangeably.
3. Temperature range is –40 to 125 °C.
4. An "R" at the end of the part number denotes tape and reel packaging option.
5. Automotive-Grade devices (with an "–A" suffix) are identical in construction materials, topside marking, and electrical parameters
to their Industrial-Grade (with an "–I" suffix) version counterparts. Automotive-Grade products are produced utilizing full automotive process flows and additional statistical process controls throughout the manufacturing flow. The Automotive-Grade part
number is included on shipping labels.
6. In the top markings of each device, the Manufacturing Code represented by either “RTTTTT” or “TTTTTT” contains as its first
character a letter in the range N through Z to indicate Automotive-Grade.
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�Table of Contents
1. Ordering Guide
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2. System Overview . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 5
2.1 Theory of Operation .
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. 5
3. Typical Application Overview . . . . . . . . . . . . . . . . . . . . . . . . . 6
3.1 I2C Background.
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3.2 I2C Isolator Operation
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3.3 I2C Isolator Design Constraints
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3.4 I2C Isolator Design Considerations .
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3.5 Typical Application Schematics
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4. Device Operation . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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4.1 Device Startup .
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.10
4.2 Undervoltage Lockout
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.10
4.3 Input and Output Characteristics for Non-I2C Digital Channels .
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.11
4.4 Layout Recommendations .
4.4.1 Supply Bypass . . .
4.4.2 Output Pin Termination .
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4.5 Typical Performance Characteristics.
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.12
5. Electrical Specifications . . . . . . . . . . . . . . . . . . . . . . . . . .
13
5.1 Test Circuits .
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.18
6. Pin Descriptions . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
23
6.1 Si8600/02 SOIC-8 Package
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.23
6.2 Si8600/02 SOIC-16 Package .
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.24
6.3 Si8605/06 SOIC-16 Package .
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.25
7. Package Outline: 16-Pin Wide Body SOIC. . . . . . . . . . . . . . . . . . . .
26
8. Land Pattern: 16-Pin Wide-Body SOIC . . . . . . . . . . . . . . . . . . . . .
28
9. Package Outline: 8-Pin Narrow Body SOIC . . . . . . . . . . . . . . . . . . .
29
10. Land Pattern: 8-Pin Narrow Body SOIC . . . . . . . . . . . . . . . . . . . .
30
11. Package Outline: 16-Pin Narrow Body SOIC . . . . . . . . . . . . . . . . . .
31
12. Land Pattern: 16-Pin Narrow Body SOIC. . . . . . . . . . . . . . . . . . . .
33
13. Si860x Top Markings . . . . . . . . . . . . . . . . . . . . . . . . . . .
34
13.1 Top Marking: 16-Pin Wide Body SOIC
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13.2 Top Marking: 8-Pin Narrow Body SOIC .
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.35
13.3 Top Marking: 16-Pin Narrow Body SOIC .
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.36
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�14. Revision History. . . . . . . . . . . . . . . . . . . . . . . . . . . . .
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4
�Si860x Data Sheet • System Overview
2. System Overview
2.1 Theory of Operation
The operation of an Si86xx channel is analogous to that of an opto coupler, except an RF carrier is modulated instead of light. This
simple architecture provides a robust isolated data path and requires no special considerations or initialization at start-up. A simplified
block diagram for a single unidirectional Si86xx channel is shown in the figure below.
Transmitter
Receiver
RF OSCILLATOR
A
MODULATOR
SemiconductorBased Isolation
Barrier
DEMODULATOR
B
Figure 2.1. Simplified Channel Diagram
A channel consists of an RF Transmitter and RF Receiver separated by a semiconductor-based isolation barrier. Referring to the
Transmitter, input A modulates the carrier provided by an RF oscillator using on/off keying. The Receiver contains a demodulator that
decodes the input state according to its RF energy content and applies the result to output B via the output driver. This RF on/off keying
scheme is superior to pulse code schemes as it provides best-in-class noise immunity, low power consumption, and better immunity to
magnetic fields. See the following figure for more details.
Input Signal
Modulation Signal
Output Signal
Figure 2.2. Modulation Scheme
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�Si860x Data Sheet • Typical Application Overview
3. Typical Application Overview
3.1 I2C Background
In many applications, I2C, SMBus, and other digital power supply communications, including those for bus power management, the
interfaces require galvanic isolation for safety or ground loop elimination. For example, Power over Ethernet (PoE) applications typically
use an I2C interface for communication between the PoE power sourcing device (PSE), and the earth ground referenced system
controller. Galvanic isolation is required both by standard and also as a practical matter to prevent ground loops in Ethernet connected
equipment.
The physical interface consists of two wires: serial data (SDA) and serial clock (SCL). These wires are connected to open collector
drivers that serve as both inputs and outputs. At first glance, it appears that SDA and SCL can be isolated simply by placing two
unidirectional isolators in parallel, and in opposite directions. However, this technique creates feedback that latches the bus line low
when a logic low asserted by either master or slave. This problem can be remedied by adding anti-latch circuits, but results in a
larger and more expensive solution. The Si860x products offer a single-chip, anti-latch solution to the problem of isolating I2C/SMBus
applications and require no external components except the I2C/SMBus pull-up resistors. In addition, they provide isolation to a
maximum of 5.0 kVRMS, support I2C clock stretching, and operate to a maximum I2C bus speed of 1.7 Mbps.
3.2 I2C Isolator Operation
Without anti-latch protection, bidirectional I2C isolators latch when an isolator output logic low propagates back through an adjacent
isolator channel creating a stable latched low condition on both sides. Anti-latch protection is typically added to one side of the isolator
to avoid this condition (the “A” side for the Si8600/02/05/06).
The following examples illustrate typical circuit configurations using the Si8600/02/05/06.
Si8600/02/05/06
I2C/SMBus
Unit 1
+
-
VIL
I2C/SMBus
Unit 2
ISO1
VOL
VIL
VOL
B Side
A Side
ISO2
Figure 3.1. Isolated Bus Overview (I2C Channels Only)
The “A side” output low (VOL) and input low (VIL) levels are designed such that the isolator VOL is greater than the isolator VIL to prevent
the latch condition.
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�Si860x Data Sheet • Typical Application Overview
3.3 I2C Isolator Design Constraints
The table below lists the I2C isolator design constraints.
Table 3.1. Design Constraints
Design Constraint
To prevent the latch condition, the
isolator output low level must be
greater than the isolator input low
level.
Data Sheet Values
Effect of Bus Pull-up Strength
and Temperature
Isolator VOL 0.7 V typical
This is normally guaranteed by the isolator data sheet.
However, if the pull up strength is too weak, the output
low voltage will fall and can get too close to the input low
logic level. These track over temperature.
Isolator VIL 0.5 V typical
Input/Output Logic Low Level
Difference
ΔVSDA1, ΔVSCL1 = 50 mV minimum
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.
Bus VOL = 0.4 V maximum
Isolator VIL = 0.41 V minimum
Bus VIL 0.3 x VDD = 1.0 V minimum
for VDD = 3.3 V
Isolator VOL = 0.8 V maximum
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 temperature 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 temperature.
3.4 I2C Isolator Design Considerations
The first step in applying an I2C isolator is to choose which side of the bus will be connected to the isolator A side. Ideally, it should be
the side which:
Is compatible with the range of bus pull up specified by the manufacturer. For example, the Si8600/02/05/06 isolators are normally used
with a pull up of 0.5 mA to 3 mA.
Has the highest input low level for devices on the bus. Some devices may specify an input low of 0.9 V and 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.
Have devices on the bus that can pull down below the isolator input low level. For example, the Si860x input level is 0.41 V. As most
CMOS devices can pull to within 0.4 V of GND this is generally not an issue.
Has the lowest noise. Due to the special logic levels, noise margins can be as low as 50 mV.
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�Si860x Data Sheet • Typical Application Overview
3.5 Typical Application Schematics
The figures below illustrate typical circuit configurations using the Si8600, Si8602, Si8605, and Si8606.
AVDD
3k
3k
0.1 µF
0.1 µF
ASDA
BVDD
8
1
2
3k
7
ASCL
3
6
AGND
4
5
3k
BSDA
BSCL
I2C
Bus
BGND
Si8600
Figure 3.2. Typical Si8600 Application Diagram
AVDD
3k
0.1 µF
0.1 µF
ASDA
BVDD
8
1
2
3k
BSDA
7
ASCL
3
6
AGND
4
5
BSCL
I2C
Bus
BGND
Si8602
Figure 3.3. Typical Si8602 Application Diagram
BGND
1
16
2
15
33
14
4
13
ASDA
5
12
BSDA
ASCL
6
11
BSCL
AGND
7
10
AGND
AVDD
0.1 µF
3k
3k
8
Si8600
BVDD
0.1 µF
9
3k
3k
I2C Bus
BGND
Figure 3.4. Typical Si8600 Application Diagram
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�Si860x Data Sheet • Typical Application Overview
BGND
1
16
2
15
33
14
4
13
ASDA
5
12
BSDA
ASCL
6
11
BSCL
AGND
7
10
AGND
AVDD
0.1 µF
3k
8
Si8602
BVDD
0.1 µF
3k
I2C Bus
BGND
9
Figure 3.5. Typical Si8602 Application Diagram
AVDD
0.1 µF
3k
3k
ASDA
RESET
Microcontroller
ASCL
1
16
2
15
33
14
4
13
5
12
6
11
7
10
8
AGND
Si8605
BVDD
0.1 µF
3k
3k
BSDA
Microcontroller
INT
I2C Bus
BSCL
BGND
9
Figure 3.6. Typical Si8605 Application Diagram
1
16
2
15
ASDA
33
14
RESET
4
13
INT
5
12
ASCL
6
11
7
10
AVDD
0.1 µF
3k
AGND
3k
8
Si8606
BVDD
0.1 µF
3k
3k
BSDA
Microcontroller
9
I2C
Bus
BSCL
BGND
Figure 3.7. Typical Si8606 Application Diagram
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�Si860x Data Sheet • Device Operation
4. Device Operation
Device behavior during start-up, normal operation, and shutdown is shown in Figure 4.1 Device Behavior during Normal Operation
on page 10, where UVLO+ and UVLO- are the positive-going and negative-going thresholds respectively. Refer to Table 4.1 Si86xx
Operation Table on page 11 to determine outputs when power supply (VDD) is not present.
4.1 Device Startup
Outputs are held low during powerup until VDD is above the UVLO threshold for time period tSTART. Following this, the outputs follow
the states of inputs.
4.2 Undervoltage Lockout
Undervoltage Lockout (UVLO) is provided to prevent erroneous operation during device startup and shutdown or when VDD is below its
specified operating circuits range. Both Side A and Side B each have their own undervoltage lockout monitors. Each side can enter or
exit UVLO independently. For example, Side A unconditionally enters UVLO when AVDD falls below AVDDUVLO– and exits UVLO when
AVDD rises above AVDDUVLO+. Side B operates the same as Side A with respect to its BVDD supply.
UVLO+
UVLO-
AVDD
UVLO+
UVLO-
BVDD
INPUT
tSTART
tSD
tSTART
tSTART
tPHL
tPLH
OUTPUT
Figure 4.1. Device Behavior during Normal Operation
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�Si860x Data Sheet • Device Operation
4.3 Input and Output Characteristics for Non-I2C Digital Channels
The unidirectional Si86xx inputs and outputs are standard CMOS drivers/receivers. The nominal output impedance of an isolator
driver channel is approximately 50 Ω, ±40%, which is a combination of the value of the on-chip series termination resistor and
channel resistance of the output driver FET. When driving loads where transmission line effects will be a factor, output pins should be
appropriately terminated with controlled impedance PCB traces. Table 4.1 Si86xx Operation Table on page 11 details powered and
unpowered operation of the Si86xx’s non-I2C digital channels.
Table 4.1. Si86xx Operation Table
Comments
VI Input1, 4
VDDI State11,2,3
VDDO State1,2,3
VO Output1, 4
H
P
P
H
L
P
P
L
X
UP
P
L
Upon transition of VDDI from unpowered to powered, VO returns to
the same state as VI in less than 1
µs.
X
P
UP
Undetermined
Upon transition of VDDO from unpowered to powered, VO returns to
the same state as VI within 1 µs.
Normal operation.
Note:
1. VDDI and VDDO are the input and output power supplies. VI and VO are the respective input and output terminals.
2. Powered (P) state is defined as 3.0 V < VDD < 5.5 V.
3. Unpowered (UP) state is defined as VDD = 0 V.
4. X = not applicable; H = Logic High; L = Logic Low.
5. Note that an I/O can power the die for a given side through an internal diode if its source has adequate current.
6. For I2C channels, the outputs for a given side go to Hi-Z when power is lost on the opposite side.
4.4 Layout Recommendations
To ensure safety in the end user application, high voltage circuits (i.e., circuits with >30 VAC) must be physically separated from the
safety extra-low voltage circuits (SELV is a circuit with 0.5 mA, 0.540 V.
3. I2CΔV (Side A) = I2CVOL (Side A) – I2CVT (Side A). To ensure no latch-up on a given bus, I2CΔV (Side A) is the minimum
difference between the output logic low level of the driving device and the input logic threshold.
4. Side A measured at 0.6 V.
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�Si860x Data Sheet • Electrical Specifications
Table 5.4. Electrical Characteristics for Unidirectional Non-I2C Digital Channels (Si8602/05/06)
3.0 V < VDD < 5.5 V. TA = –40 to +125 °C. Typical specs at 25 °C
Parameter
Symbol
Test Condition
Min
Typ
Max
Unit
Positive-Going Input
Threshold
VT+
All inputs rising
1.4
1.67
1.9
V
Negative-Going Input
Threshold
VT–
All inputs falling
1.0
1.23
1.4
V
Input Hysteresis
VHYS
0.38
0.44
0.50
V
High Level Input Voltage
VIH
2.0
—
—
V
Low Level Input Voltage
VIL
—
—
0.8
V
High Level Output Voltage
VOH
loh = –4 mA
AVDD,
BVDD
–0.4
4.8
—
V
Low Level Output Voltage
VOL
lol = 4 mA
—
0.2
0.4
V
Input Leakage Current
IL
—
—
±10
µA
Output Impedance1
ZO
—
50
—
Ω
Maximum Data Rate
0
—
10
Mbps
Minimum Pulse Width
—
—
40
ns
Timing Characteristics
Propagation Delay
Pulse Width Distortion
|tPLH – tPHL|
Propagation Delay Skew2
Channel-Channel Skew
tPHL, tPLH
See Figure 5.1 Propagation Delay Timing
(Non-I2C Channels) on page 17
—
—
20
ns
PWD
See Figure 5.1 Propagation Delay Timing
(Non-I2C Channels) on page 17
—
—
12
ns
tPSK(P-P)
—
—
20
ns
tPSK
—
—
10
ns
—
2.5
4.0
ns
—
2.5
4.0
ns
—
350
—
ps
C3 = 15 pF
Output Rise Time
tr
See Figure 5.1 Propagation Delay Timing
(Non-I2C Channels) on page 17 and Figure
5.2 Simplified Timing Test Diagram on page
18
C3 = 15 pF
Output Fall Time
Peak Eye Diagram Jitter
tf
tJIT(PK)
See Figure 5.1 Propagation Delay Timing
(Non-I2C Channels) on page 17 and Figure
5.2 Simplified Timing Test Diagram on page
18
Note:
1. The nominal output impedance of a non-I2C isolator driver channel is approximately 50 Ω, ±40%, which is a combination of
the value of the on-chip series termination resistor and channel resistance of the output driver FET. When driving loads where
transmission line effects will be a factor, output pins should be appropriately terminated with controlled impedance PCB traces.
2. tPSK(P-P) is the magnitude of the difference in propagation delay times measured between different units operating at the same
supply voltages, load, and ambient temperature.
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�Si860x Data Sheet • Electrical Specifications
Table 5.5. Electrical Characteristics for All I2C and Non-I2C Channels
3.0 V < VDD < 5.5 V. TA = –40 to +125 °C. Typical specs at 25 °C
Parameter
Symbol
Test Condition
Min
Typ
Max
Unit
VDD Undervoltage Threshold
VDDUV+
VDD1, VDD2 rising
1.95
2.24
2.375
V
VDD Undervoltage Threshold
VDDUV–
VDD1, VDD2 falling
1.88
2.16
2.325
V
VDD Undervoltage Hysteresis
VDDHYS
50
70
95
mV
35
50
—
kV/µs
tSD
—
3.0
—
µs
tSTART
—
15
40
µs
VI = VDD or 0 V
Common Mode Transient
Immunity
CMTI
Shut Down Time from UVLO
Start-up Time1
VCM = 1500 V (see Figure
5.3 Common Mode Transient Immunity Test Circuit
on page 18)
Note:
1. Start-up time is the time period from the application of power to valid data at the output.
1.4 V
Typical
Input
tPLH
1.4 V
Typical
Output
tPHL
90%
90%
10%
10%
tr
tf
Figure 5.1. Propagation Delay Timing (Non-I2C Channels)
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�Si860x Data Sheet • Electrical Specifications
5.1 Test Circuits
Figure 5.2 Simplified Timing Test Diagram on page 18 depicts the timing test diagram; Figure 5.3 Common Mode Transient Immunity
Test Circuit on page 18 depicts the CMTI test diagram.
AVDD
R1
R1
NC
ASDA
BSDA
ADIN
BDOUT
ASCL
C1
NC
C3
R2
NC
ADOUT
C1
BVDD
R2
BDIN
BSCL
NC
AGND
BGND
Si8605
C2
C3
C2
Figure 5.2. Simplified Timing Test Diagram
3 to 5 V
Supply
Si86xx
Input
Signal
Switch
3 to 5 V
Isolated
Supply
AVDD
BVDD
INPUT
OUTPUT
Oscilloscope
AGND
BGND
Isolated
Ground
Input
High Voltage
Differential
Probe
Output
Vcm Surge
Output
High Voltage
Surge Generator
Figure 5.3. Common Mode Transient Immunity Test Circuit
Table 5.6. Regulatory Information1
CSA
The Si860x is certified under CSA Component Acceptance Notice 5A. For more details, see File 232873.
61010-1: Up to 600 VRMS reinforced insulation working voltage; up to 600 VRMS basic insulation working voltage.
60950-1: Up to 600 VRMS reinforced insulation working voltage; up to 1000 VRMS basic insulation working voltage.
60601-1: Up to 125 VRMS reinforced insulation working voltage; up to 380 VRMS basic insulation working voltage.
VDE
The Si860x is certified according to IEC 60747-5-2. For more details, see File 5006301-4880-0001.
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�Si860x Data Sheet • Electrical Specifications
60747-5-2: Up to 1200 Vpeak for basic insulation working voltage.
60950-1: Up to 600 VRMS reinforced insulation working voltage; up to 1000 VRMS basic insulation working voltage.
UL
The Si860x is certified under UL1577 component recognition program. For more details, see File E257455.
Rated up to 5000 VRMS isolation voltage for basic protection.
CQC
The Si860x is certified under GB4943.1-2011. For more details, see certificates CQC13001096110 and CQC13001096239.
Rated up to 600 VRMS reinforced insulation working voltage; up to 1000 VRMS basic insulation working voltage.
Note:
1. Regulatory Certifications apply to 2.5 kVRMS rated devices which are production tested to 3.0 kVRMS for 1 sec.
Regulatory Certifications apply to 3.75 kVRMS rated devices which are production tested to 4.5 kVRMS for 1 sec.
Regulatory Certifications apply to 5.0 kVRMS rated devices which are production tested to 6.0 kVRMS for 1 sec.
For more information, see 1. Ordering Guide.
Table 5.7. Insulation and Safety-Related Specifications
Parameter
Symbol
Test Condition
Value
Unit
NB
SOIC-8
NB
SOIC-16
WB
SOIC-16
Nominal Air Gap (Clearance)
L(1O1)
4.9
4.9
8.0
mm
Nominal External Tracking (Creepage)1
L(1O2)
4.01
4.01
8.0
mm
0.014
0.014
0.014
mm
600
600
600
VRMS
Minimum Internal Gap
(Internal Clearance)
Tracking Resistance
(Proof Tracking Index)
PTI
Erosion Depth
ED
0.040
0.019
0.019
mm
Resistance (Input-Output)2
RIO
1012
1012
1012
Ω
Capacitance (Input-Output)2
CIO
f = 1 ΜΗz
1.0
2.0
2.0
pF
CI
Νon−Ι2C Channel
4.0
4.0
4.0
pF
I2C Channel
10
10
10
pF
Input Capacitance3
IEC60112
Note:
1. VDE certifies the clearance and creepage limits as 4.7 mm minimum for the NB SOIC-8 and SOIC-16 packages and 8.5
mm minimum for the WB SOIC-16 package. UL does not impose a clearance and creepage minimum for component level
certifications. CSA certifies the clearance and creepage limits as 3.9 mm minimum for the NB SOIC-8 and SOIC-16 packages
and 7.6 mm minimum for the WB SOIC-16 package.
2. To determine resistance and capacitance, the Si860x, SO-16, is converted into a 2-terminal device. Pins 1–8 (1–4, SO-8) are
shorted together to form the first terminal and pins 9–16 (5–8, SO-8) are shorted together to form the second terminal. The
parameters are then measured between these two terminals.
3. Measured from input pin to ground.
19
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�Si860x Data Sheet • Electrical Specifications
Table 5.8. IEC 60664-1 (VDE 0844 Part 2) Ratings
Parameter
Test Conditions
NB SOIC-8
SOIC-16
WB SOIC-16
Material Group
I
I
Rated Mains Voltages < 150 VRMS
I-IV
I-IV
Rated Mains Voltages < 300 VRMS
I-III
I-IV
Rated Mains Voltages < 400 VRMS
I-II
I-III
Rated Mains Voltages < 600 VRMS
I-II
I-III
Basic Isolation Group
Installation Classification
Specification
Table 5.9. IEC 60747-5-2 Insulation Characteristics for Si86xxxx1
Parameter
Symbol
Maximum Working Insulation Voltage
Input to Output Test Voltage
Transient Overvoltage
Test Condition
Characteristic
VIORM
WB
SOIC-16
NB SOIC-8
SOIC-16
1200
630
Vpeak
VPR
Method b1
(VIORM x 1.875 = VPR, 100%
Production Test, tm = 1 sec,
Partial Discharge < 5 pC)
2250
1182
Vpeak
VIOTM
t = 60 sec
6000
6000
Vpeak
2
2
>109
>109
Pollution Degree
(DIN VDE 0110, Table 1)
Insulation Resistance at TS, VIO = 500 V
Unit
RS
Ω
Note:
1. Maintenance of the safety data is ensured by protective circuits. The Si86xxxx provides a climate classification of 40/125/21.
Table 5.10. IEC Safety Limiting Values1
Parameter
Symbol
Case Temperature
TS
Safety Input Current
ΙS
Test Condition
θJA = 100 °C/W (WB SOIC-16),
105 °C/W (NB SOIC-16), 140
°C/W (NB SOIC-8)
AVDD, BVDD = 5.5 V, TJ = 150
°C,
NB SOIC-8 NB SOIC-16
WB SOIC-16
Unit
150
150
150
°C
160
210
220
mA
220
275
275
mW
TA = 25 °C
Device Power Dissipation2
20
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�Si860x Data Sheet • Electrical Specifications
Parameter
Symbol
Test Condition
NB SOIC-8 NB SOIC-16
WB SOIC-16
Unit
Note:
1. Maximum value allowed in the event of a failure. Refer to the thermal derating curve in the three figures below.
2. The Si86xx is tested with AVDD, BVDD = 5.5 V; TJ = 150 ºC; C1, C2 = 0.1 µF; C3 = 15 pF; R1, R2 = 3 kΩ; input 1 MHz 50% duty
cycle square wave.
Table 5.11. Thermal Characteristics
Parameter
IC Junction-to-Air Thermal Resistance
Symbol
NB SOIC-8
NB SOIC-16
WB SOIC-16
Unit
θJA
140
105
100
°C/W
Safety-Limiting Values (mA)
400
300 270
AVDD, BVDD = 3.6 V
200
160
AVDD, BVDD = 5.5 V
100
0
0
50
100
150
Case Temperature (ºC)
200
Figure 5.4. NB SOIC-8 Thermal Derating Curve, Dependence of Safety Limiting Values
with Case Temperature per DIN EN 60747-5-2
Safety-Limiting Current (mA)
500
400
350
300
AVDD , BVDD = 3.6 V
210
200
AVDD , BVDD = 5.5 V
100
0
0
50
100
Temperature (ºC)
150
200
Figure 5.5. NB SOIC-16 Thermal Derating Curve, Dependence of Safety Limiting Values
with Case Temperature per DIN EN 60747-5-2
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�Si860x Data Sheet • Electrical Specifications
Safety-Limiting Current (mA)
500
400
350
300
AVDD , BVDD = 3.6 V
220
200
AVDD , BVDD = 5.5 V
100
0
0
50
100
Temperature (ºC)
150
200
Figure 5.6. WB SOIC-16 Thermal Derating Curve, Dependence of Safety Limiting Values
with Case Temperature per DIN EN 60747-5-2
Table 5.12. Absolute Maximum Ratings1
Parameter
Symbol
Min
Max
Unit
TSTG
–65
150
ºC
Ambient Temperature Under Bias
TA
–40
125
ºC
Junction Temperature
TJ
—
150
°C
VDD
–0.5
7.0
V
Input Voltage
VI
–0.5
VDD + 0.5
V
Output Voltage
VO
–0.5
VDD + 0.5
V
Output Current Drive (non-I2C channels)
IO
—
±10
mA
Side A output current drive (I2C channels)
IO
—
±15
mA
Side B output current drive (I2C channels)
IO
—
±75
mA
Lead Solder Temperature (10 s)
—
260
ºC
Maximum Isolation (Input to Output) (1 sec)
NB SOIC-8, SOIC-16
—
4500
VRMS
Maximum Isolation (Input to Output) (1 sec)
WB SOIC-16
—
6500
VRMS
Storage Temperature 2
Supply Voltage
Note:
1. Permanent device damage may occur if the absolute maximum ratings are exceeded. Functional operation should be restricted to
conditions as specified in the operational sections of this data sheet.
2. VDE certifies storage temperature from –40 to 150 °C.
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�Si860x Data Sheet • Pin Descriptions
6. Pin Descriptions
6.1 Si8600/02 SOIC-8 Package
AVDD 1
8 BVDD
AVDD 1
8 BVDD
ASDA 2
Bidirectional
Isolator Channel
7 BSDA
ASDA 2
Bidirectional
Isolator Channel
7 BSDA
ASCL 3
Bidirectional
Isolator Channel
6 BSCL
ASCL 3
Unidirectional
Isolator Channel
6 BSCL
5 BGND
AGND 4
AGND 4
Si8600
Si8602
5 BGND
Table 6.1. Si8600/02 in SOIC-8 Package
Pin
Name
Description
1
AVDD
Side A power supply terminal; connect to a source of 3.0
to 5.5 V.
2
ASDA
Side A data (open drain) input or output.
3
ASCL
Side A clock input or output.
Open drain I/O for Si8600. Standard CMOS input for
Si8602.
4
AGND
Side A ground terminal.
5
BGND
Side B ground terminal.
6
BSCL
Side B clock input or output.
Open drain I/O for Si8600. Push-pull output for Si8602.
23
7
BSDA
Side B data (open drain) input or output.
8
BVDD
Side B power supply terminal; connect to a source of 3.0
to 5.5 V.
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�Si860x Data Sheet • Pin Descriptions
6.2 Si8600/02 SOIC-16 Package
16 BGND
AGND 1
NC 2
NC 2
15 NC
AVDD 3
ASDA 5
12 BSDA
ASDA 5
ASCL 6
Bidirectional
Isolator Channel
11 BSCL
ASCL 6
NC 8
13 NC
Bidirectional
Isolator Channel
Unidirectional
Isolator Channel
AGND 7
10 NC
Si8600
14 BVDD
NC 4
13 NC
Bidirectional
Isolator Channel
AGND 7
15 NC
AVDD 3
14 BVDD
NC 4
16 BGND
AGND 1
NC 8
9 BGND
12 BSDA
11 BSCL
10 NC
Si8602
9 BGND
Table 6.2. Si8600/02 in Narrow and Wide-Body SOIC-16 Packages
24
Pin
Name
Description
1
AGND
Side A Ground Terminal.
2
NC
3
AVDD
4
NC
5
ASDA
Side A data open drain input or output.
6
ASCL
Side A data open drain input or output.
7
AGND
Side A Ground Terminal.
8
NC
9
BGND
10
NC
11
BSCL
Side B data open drain input or output.
12
BSDA
Side B data open drain input or output.
13
NC
14
BVDD
15
NC
16
BGND
No connection.
Side A power supply terminal. Connect to a source of
3.0 to 5.5 V.
No connection.
No connection.
Side B Ground Terminal.
No connection.
No connection.
Side B power supply terminal. Connect to a source of
3.0 to 5.5 V.
No connection.
Side B Ground Terminal.
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�Si860x Data Sheet • Pin Descriptions
6.3 Si8605/06 SOIC-16 Package
16 BVDD
AVDD 1
NC 2
ASDA 3
ADIN 4
ADOUT 5
ASCL 6
15 NC
Bidirectional
Isolator Channel
Unidirectional
Isolator Channel
Unidirectional
Isolator Channel
Bidirectional
Isolator Channel
NC 7
AGND 8
NC 2
14 BSDA
ASDA 3
13 BDOUT
ADIN1 4
12 BDIN
ADIN2 5
11 BSCL
ASCL 6
15 NC
Bidirectional
Isolator Channel
Unidirectional
Isolator Channel
Unidirectional
Isolator Channel
Bidirectional
Isolator Channel
NC 7
10 NC
Si8605
16 BVDD
AVDD 1
AGND 8
9 BGND
14 BSDA
13 BDOUT1
12 BDOUT2
11 BSCL
10 NC
Si8606
9 BGND
Table 6.3. Si8605/06 in Narrow and Wide-Body SOIC-16 Packages
Pin
Name
Description
1
AVDD
Side A power supply terminal. Connect to a source of
3.0 to 5.5 V.
2
NC
3
ASDA
4
ADIN/ADIN1
5
ADOUT/ADIN2
No connection.
Side A data (open drain) input or output.
Side A standard CMOS digital input (non I2C).
Side A digital input/output (non I2C)
Standard CMOS digital input for Si8606.
Push-Pull output for Si8605.
6
ASCL
Side A clock input or output.
Open drain I/O for Si8605/06.
7
NC
No connection.
8
AGND
Side A Ground Terminal.
9
BGND
Side B Ground Terminal.
10
NC
11
BSCL
No connection.
Side B clock input or output.
Open drain I/O for Si8605/06.
12
BDIN/BDOUT2
Side B digital input/output (non I2C)
Standard CMOS digital input for Si8605.
Push-Pull output for Si8606.
25
13
BDOUT/BDOUT1
14
BSDA
15
NC
16
BVDD
Side B digital push-pull output (non I2C).
Side B data open drain input or output.
No connection.
Side B power supply terminal. Connect to a source of
3.0 to 5.5 V.
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�Si860x Data Sheet • Package Outline: 16-Pin Wide Body SOIC
7. Package Outline: 16-Pin Wide Body SOIC
Figure 7.1 16-Pin Wide Body SOIC on page 26 illustrates the package details for the Si860x Digital Isolator. Table 7.1 Package
Diagram Dimensions on page 26 lists the values for the dimensions shown in the illustration.
Figure 7.1. 16-Pin Wide Body SOIC
Table 7.1. Package Diagram Dimensions
26
Dimension
Min
Max
A
—
2.65
A1
0.10
0.30
A2
2.05
—
b
0.31
0.51
c
0.20
0.33
D
10.30 BSC
E
10.30 BSC
E1
7.50 BSC
e
1.27 BSC
L
0.40
1.27
h
0.25
0.75
θ
0°
8°
aaa
—
0.10
bbb
—
0.33
ccc
—
0.10
ddd
—
0.25
eee
—
0.10
fff
—
0.20
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�Si860x Data Sheet • Package Outline: 16-Pin Wide Body SOIC
Dimension
Min
Max
Note:
1. All dimensions shown are in millimeters (mm) unless otherwise noted.
2. Dimensioning and Tolerancing per ANSI Y14.5M-1994.
3. This drawing conforms to JEDEC Outline MS-013, Variation AA.
4. Recommended reflow profile per JEDEC J-STD-020 specification for small body, lead-free components.
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�Si860x Data Sheet • Land Pattern: 16-Pin Wide-Body SOIC
8. Land Pattern: 16-Pin Wide-Body SOIC
Figure 8.1 16-Pin SOIC Land Pattern on page 28 illustrates the recommended land pattern details for the Si860x in a 16-pin
wide-body SOIC. Table 8.1 16-Pin Wide Body SOIC Land Pattern Dimensions on page 28 lists the values for the dimensions shown in
the illustration.
Figure 8.1. 16-Pin SOIC Land Pattern
Table 8.1. 16-Pin Wide Body SOIC Land Pattern Dimensions
Dimension
Feature
(mm)
C1
Pad Column Spacing
9.40
E
Pad Row Pitch
1.27
X1
Pad Width
0.60
Y1
Pad Length
1.90
Note:
1. This Land Pattern Design is based on IPC-7351 pattern SOIC127P1032X265-16AN for Density Level B (Median Land Protrusion).
2. All feature sizes shown are at Maximum Material Condition (MMC) and a card fabrication tolerance of 0.05 mm is assumed.
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�Si860x Data Sheet • Package Outline: 8-Pin Narrow Body SOIC
9. Package Outline: 8-Pin Narrow Body SOIC
Figure 9.1 8-pin Small Outline Integrated Circuit (SOIC) Package on page 29 illustrates the package details for the Si860x in an 8-pin
SOIC (SO-8). Table 9.1 Package Diagram Dimensions on page 29 lists the values for the dimensions shown in the illustration.
α
Figure 9.1. 8-pin Small Outline Integrated Circuit (SOIC) Package
Table 9.1. Package Diagram Dimensions
Symbol
Millimeters
Min
Max
A
1.35
1.75
A1
0.10
0.25
A2
1.40 REF
1.55 REF
B
0.33
0.51
C
0.19
0.25
D
4.80
5.00
E
3.80
4.00
e
29
1.27 BSC
H
5.80
6.20
h
0.25
0.50
L
0.40
1.27
∝
0°
8°
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�Si860x Data Sheet • Land Pattern: 8-Pin Narrow Body SOIC
10. Land Pattern: 8-Pin Narrow Body SOIC
Figure 10.1 PCB Land Pattern: 8-Pin Narrow Body SOIC on page 30 illustrates the recommended land pattern details for the Si860x in
an 8-pin narrow-body SOIC. Table 10.1 PCM Land Pattern Dimensions (8-Pin Narrow Body SOIC) on page 30 lists the values for the
dimensions shown in the illustration.
Figure 10.1. PCB Land Pattern: 8-Pin Narrow Body SOIC
Table 10.1. PCM Land Pattern Dimensions (8-Pin Narrow Body SOIC)
Dimension
Feature
(mm)
C1
Pad Column Spacing
5.40
E
Pad Row Pitch
1.27
X1
Pad Width
0.60
Y1
Pad Length
1.55
Note:
1. This Land Pattern Design is based on IPC-7351 pattern SOIC127P600X173-8N for Density Level B (Median Land Protrusion).
2. All feature sizes shown are at Maximum Material Condition (MMC) and a card fabrication tolerance of 0.05 mm is assumed.
30
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�Si860x Data Sheet • Package Outline: 16-Pin Narrow Body SOIC
11. Package Outline: 16-Pin Narrow Body SOIC
Figure 11.1 16-pin Small Outline Integrated Circuit (SOIC) Package on page 31 illustrates the package details for the Si860x in a
16-pin narrow-body SOIC (SO-16). Table 11.1 Package Diagram Dimensions on page 31 lists the values for the dimensions shown in
the illustration.
Figure 11.1. 16-pin Small Outline Integrated Circuit (SOIC) Package
Table 11.1. Package Diagram Dimensions
Dimension
Min
Max
A
—
1.75
A1
0.10
0.25
A2
1.25
—
b
0.31
0.51
c
0.17
0.25
D
9.90 BSC
E
6.00 BSC
E1
3.90 BSC
e
1.27 BSC
L
0.40
L2
31
1.27
0.25 BSC
h
0.25
0.50
θ
0°
8°
aaa
0.10
bbb
0.20
ccc
0.10
ddd
0.25
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�Si860x Data Sheet • Package Outline: 16-Pin Narrow Body SOIC
Dimension
Min
Max
Note:
1. All dimensions shown are in millimeters (mm) unless otherwise noted.
2. Dimensioning and Tolerancing per ANSI Y14.5M-1994.
3. This drawing conforms to the JEDEC Solid State Outline MS-012, Variation AC.
4. Recommended card reflow profile is per the JEDEC/IPC J-STD-020 specification for Small Body Components.
32
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�Si860x Data Sheet • Land Pattern: 16-Pin Narrow Body SOIC
12. Land Pattern: 16-Pin Narrow Body SOIC
Figure 12.1 16-Pin Narrow Body SOIC PCB Land Pattern on page 33 illustrates the recommended land pattern details for the Si860x
in a 16-pin narrow-body SOIC. Table 12.1 16-Pin Narrow Body SOIC Land Pattern Dimensions on page 33 lists the values for the
dimensions shown in the illustration.
Figure 12.1. 16-Pin Narrow Body SOIC PCB Land Pattern
Table 12.1. 16-Pin Narrow Body SOIC Land Pattern Dimensions
Dimension
Feature
(mm)
C1
Pad Column Spacing
5.40
E
Pad Row Pitch
1.27
X1
Pad Width
0.60
Y1
Pad Length
1.55
Note:
1. This Land Pattern Design is based on IPC-7351 pattern SOIC127P600X165-16N for Density Level B (Median Land Protrusion).
2. All feature sizes shown are at Maximum Material Condition (MMC) and a card fabrication tolerance of 0.05 mm is assumed.
33
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�Si860x Data Sheet • Si860x Top Markings
13. Si860x Top Markings
13.1 Top Marking: 16-Pin Wide Body SOIC
Si86XYSV
YYWWRTTTTT
e4
CC
Figure 13.1. 16-Pin Wide Body SOIC Top Marking
Table 13.1. 16-Pin Wide Body SOIC Top Marking Explanation
Line 1 Marking:
Base Part Number
Si86 = Isolator product series
Ordering Options
XY = Channel Configuration
(See Ordering Guide for more in- 05 = Bidirectional SCL, SDA; 1- forward and
formation).
1-reverse unidirectional channel
06 = Bidirectional SCL, SDA; 2- forward
unidirectional channels
S = Speed Grade
A = 1.7 Mbps
V = Isolation rating
A = 1 kV; B = 2.5 kV; C = 3.75 kV; D = 5.0 kV
Line 2 Marking:
YY = Year
WW = Workweek
RTTTTT = Mfg Code
Assigned by assembly subcontractor. Corresponds to the year
and workweek of the mold date.
Manufacturing code from assembly house
“R” indicates revision
Line 3 Marking:
Circle = 1.7 mm Diameter
“e4” Pb-Free Symbol
(Center-Justified)
Country of Origin ISO Code Abbreviation
34
CC = Country of Origin ISO Code Abbreviation
• TW = Taiwan
• TH = Thailand
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�Si860x Data Sheet • Si860x Top Markings
13.2 Top Marking: 8-Pin Narrow Body SOIC
Si86XYSV
YYWWRT
e3 TTTT
Figure 13.2. 8-Pin Narrow Body SOIC Top Marking
Table 13.2. 8-Pin Narrow Body SOIC Top Marking Explanation
Line 1 Marking:
Base Part Number
Si86 = Isolator Product Series
Ordering Options
XY = Channel Configuration
(See Ordering Guide for more infor- S = Speed Grade (max data rate)
mation).
V = Insulation rating
Line 2 Marking:
YY = Year
WW = Work week
R = Product Revision
T = First character of the manufacturing code
Line 3 Marking:
35
Assigned by assembly contractor. Corresponds to the year
and work week of the mold date.
First two characters of the manufacturing code from Assembly.
Circle = 1.1 mm Diameter
“e3” Pb-Free Symbol
TTTT = Last four characters of the
manufacturing code
Last four characters of the manufacturing code from assembly.
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�Si860x Data Sheet • Si860x Top Markings
13.3 Top Marking: 16-Pin Narrow Body SOIC
e3
Si86XYSV
YYWWRTTTTT
Figure 13.3. 16-Pin Narrow Body SOIC Top Marking
Table 13.3. 16-Pin Narrow Body SOIC Top Marking Explanation
Line 1 Marking:
Base Part Number
Si86 = Isolator product series
Ordering Options
XY = Channel Configuration
05 = Bidirectional SCL, SDA; 1- forward and
1-reverse unidirectional channel
06 = Bidirectional SCL, SDA; 2- forward
unidirectional channels
S = Speed Grade
A = 1.7 Mbps
V = Isolation rating
A = 1 kV; B = 2.5 kV; C = 3.75 kV
Line 2 Marking:
Circle = 1.2 mm Diameter
“e3” Pb-Free Symbol
YY = Year
Assigned by the Assembly House. Corresponds to the year
and work week of the mold date.
WW = Work Week
R = Product Revision
TTTTT = Mfg Code
36
Manufacturing code from assembly house
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�Si860x Data Sheet • Revision History
14. Revision History
Revision 1.72
September 2019
• Updated Ordering Guide.
Revision 1.71
January 2018
• Added new table to Ordering Guide for Automotive-Grade OPN options.
Revision 1.7
April 18, 2017
• Formatted tables in 5. Electrical Specifications.
Revision 1.6
February 2017
• Corrected Figure 13.3.
Revision 1.5
July 2016
• Converted data sheet to DITA.
Revision 1.4
•
•
•
•
•
Updated Table 6.
Added CQC certificate numbers. Corrected Device Power Dissipation units in Table 10 on page 12.
Updated "Ordering Guide".
Removed references to moisture sensitivity levels.
Removed Note 2.
Revision 1.3
•
•
•
•
•
•
Added Figure 3, “Common Mode Transient Immunity Test Circuit”.
Added references to CQC throughout.
Added references to 2.5 kVRMS devices throughout.
Removed Fail-safe operating mode throughout.
Updated "Ordering Guide".
Updated "Si860x Top Marking (16-Pin Wide Body SOIC)".
Revision 1.2
• Updated Table 12.
• Added junction temperature spec.
• Updated "Supply Bypass" .
• Updated "Ordering Guide".
• Removed Rev A devices.
• Updated "Package Outline: 16-Pin Wide Body SOIC".
• Updated Top Marks.
• Added revision description.
37
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�Si860x Data Sheet • Revision History
Revision 1.1
• Updated Figures 12 and 13.
• Updated Pin 7 AGND connection.
• Updated "Ordering Guide" to include MSL2A.
Revision 1.0
• Reordered spec tables to conform to new convention.
• Removed “pending” throughout document.
Revision 0.3
•
•
•
•
•
•
•
•
Added chip graphics on page 1.
Moved Tables 1 and 2 to page 4.
Updated Table 7, “Insulation and Safety-Related Specifications”.
Updated Table 9, “IEC 60747-5-2 Insulation Characteristics for Si86xxxx*” .
Moved Table 13 to page 17.
Moved Table 14 to page 21.
Updated "Pin Descriptions" .
Updated "Ordering Guide" .
Revision 0.2
•
•
•
•
•
•
•
•
•
•
Si8601 replaced by Si8602 throughout.
Added chip graphics.
Moved Table 12.
Updated Table 3, “Si8600/02/05/06 Electrical Characteristics for Bidirectional I2C Channels1”.
Updated Table 7, “Insulation and Safety-Related Specifications”.
Updated Table 9, “IEC 60747-5-2 Insulation Characteristics for Si86xxxx*,” on page 12.
Moved “3. Typical Application Overview” to page 16.
Moved “Typical Performance Characteristics” to page 23.
Updated "5.Pin Descriptions" on page 24.
Updated "6.Ordering Guide" on page 27.
Revision 0.1
• Initial release.
38
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