IS31FL3193-DLS2-TR Datasheet IS31FL3193-DLS2-TR | P4-P6

IS31FL3193

Integrated Silicon Solution, Inc. – www.issi.com 4

Rev. C, 11/27/2014

ABSOLUTE MAXIMUM RATINGS

Supply voltage, V

-0.3V ~ +6.0V

Voltage at any input pin

-0.3V ~ V

+0.3V

Maximum junction temperature, T

JMAX

150°C

Operating temperature range, T

-40°C ~ +85°C

Storage temperature range, T

STG

-65°C ~ +150°C

ESD (HBM)

ESD (CDM)

7kV

1kV

Note:

Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only

and functional operation of the device at these or any other condition beyond those indicated in the operational sections of the specifications is

not implied. Exposure to absolute maximum rating conditions for extended periods may affect device reliability.

ELECTRICAL CHARACTERISTICS

= -40°C ~ +85°C, V

= 5V, unless otherwise noted. Typical value are T

= 25°C.

Symbol Parameter Condition Min. Typ. Max. Unit

Supply voltage 2.7 5.5 V

Quiescent power supply

current

SDB

= V

0.8 mA

Shutdown current

SDB

= 0V 2.5

μA

SDB

= V

, software shutdown 3.5

OUT

Output current

PWM Control mode, V

= 0.5V

PWM Register(04h~06h) = 0xFF

Current Register(03h) = 0x00

(Note 1)

Current sink headroom

voltage

OUT

= 42mA 500 mV

Logic Electrical Characteristics (SDA, SCL, SDB, AD)

Logic “0” input voltage V

= 2.7V 0.4 V

Logic “1” input voltage V

= 5.5V 1.4 V

Logic “0” input current

(Note 2)

Logic “1” input current

(Note 2)

IS31FL3193

Integrated Silicon Solution, Inc. – www.issi.com 5

Rev. C, 11/27/2014

DIGITAL INPUT SWITCHING CHARACTERISTICS (Note 3)

Symbol Parameter Condition Min. Typ. Max. Unit

SCL

Serial-Clock frequency 400 kHz

BUF

Bus free time between a STOP and a

START condition

1.3 μs

HD, STA

Hold time (repeated) START condition 0.6 μs

SU, STA

Repeated START condition setup time 0.6 μs

SU, STO

STOP condition setup time 0.6 μs

HD, DAT

Data hold time 0.9 μs

SU, DAT

Data setup time 100 ns

LOW

SCL clock low period 1.3 μs

HIGH

SCL clock high period 0.7 μs

Rise time of both SDA and SCL signals,

receiving

(Note 4)

20+0.1C

300 ns

Fall time of both SDA and SCL signals,

receiving

(Note 4)

20+0.1C

300 ns

Note 1: I

OUT

represents the average output current of each individual output. See PWM Register, Table 7.

Note 2: All LEDs are on.

Note 3: Guaranteed by design.

Note 4: C

= total capacitance of one bus line in pF. I

SINK

≤ 6mA. t

and t

measured between 0.3 × V

and 0.7 × V

IS31FL3193

Integrated Silicon Solution, Inc. – www.issi.com 6

Rev. C, 11/27/2014

DETAILED DESCRIPTION

I2C INTERFACE

The IS31FL3193 uses a serial bus, which conforms to

the I2C protocol, to control the chip’s functions with two

wires: SCL and SDA. The IS31FL3193 has a 7-bit

slave address (A7:A1), followed by the R/W bit, A0.

Since IS31FL3193 only supports write operations, A0

must always be “0”. The value of bits A1 and A2 are

decided by the connection of the AD pin.

The complete slave address is:

Table 1 Slave Address (Write only):

Bit A7:A3 A2:A1 A0

Value 11010

AD connected to GND, AD = 00;

AD connected to VCC, AD = 11;

AD connected to SCL, AD = 01;

AD connected to SDA, AD = 10;

The SCL line is uni-directional. The SDA line is

bi-directional (open-collector) with a pull-up resistor

(typically 4.7kΩ). The maximum clock frequency

specified by the I2C standard is 400kHz. In this

discussion, the master is the microcontroller and the

slave is the IS31FL3193.

The timing diagram for the I2C is shown in Figure 2.

The SDA is latched in on the stable high level of the

SCL. When there is no interface activity, the SDA line

should be held high.

The “START” signal is generated by lowering the SDA

signal while the SCL signal is high. The start signal will

alert all devices attached to the I2C bus to check the

incoming address against their own chip address.

The 8-bit chip address is sent next, most significant bit

first. Each address bit must be stable while the SCL

level is high.

After the last bit of the chip address is sent, the master

checks for the IS31FL3193’s acknowledge. The

master releases the SDA line high (through a pull-up

resistor). Then the master sends an SCL pulse. If the

IS31FL3193 has received the address correctly, then it

holds the SDA line low during the SCL pulse. If the

SDA line is not low, then the master should send a

“STOP” signal (discussed later) and abort the transfer.

Following acknowledge of IS31FL3193, the register

address byte is sent, most significant bit first.

IS31FL3193 must generate another acknowledge

indicating that the register address has been received.

Then 8-bit of data byte are sent next, most significant

bit first. Each data bit should be valid while the SCL

level is stable high. After the data byte is sent, the

IS31FL3193 must generate another acknowledge to

indicate that the data was received.

The “STOP” signal ends the transfer. To signal “STOP”,

the SDA signal goes high while the SCL signal is high.

ADDRESS AUTO INCREMENT

To write multiple bytes of data into IS31FL3193, load

the address of the data register that the first data byte

is intended for. During the IS31FL3193 acknowledge

of receiving the data byte, the internal address pointer

will increment by one. The next data byte sent to

IS31FL3193 will be placed in the new address, and so

on (F

igure 5).

Figure 2 Interface Timing

Figure 3 Bit Transfer

P1-P3 P4-P6 P7-P9 P10-P12 P13-P13

IS31FL3193-DLS2-TR

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