TLC5941 Datasheet, PDF(12/23 Page) Texas Instruments – 16-CHANNEL LED DRIVER WITH DOT CORRECTION AND GRAYSCALE PWM CONTROL

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TLC5941 Datasheet, PDF (12/23 Pages) Texas Instruments – 16-CHANNEL LED DRIVER WITH DOT CORRECTION AND GRAYSCALE PWM CONTROL

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TLC5941

SLVS589 â JULY 2005

www.ti.com

TEF: THERMAL ERROR FLAG

The TLC5941 provides a temperature error flag (TEF) circuit to indicate an overtemperature condition of the IC. If

the junction temperature exceeds the threshold temperature (160Â°C typical), the TEF circuit trips and pulls XERR

to ground. TEF status can also be read out from the TLC5941 status register.

LOD: LED OPEN DETECTION

The TLC5941 provides an LED open-detection circuit (LOD). This circuit reports an error if any one of the 16

LEDs is open or disconnected from the circuit. The LOD circuit trips when the following two conditions are met

simultaneously:

1. BLANK is set to LOW

2. When the voltage at OUTn is less than V(LED) of 0.3 V (typical). (Note: the voltage at each OUTn is sampled

1 Âµs after being turned on.)

The LOD circuit also pulls XERR to GND when tripped. The LOD status of each channel can also be read out

from the TLC5941 status information data (SID) in GS data input cycle.

DELAY BETWEEN OUTPUTS

The TLC5941 has graduated delay circuits between outputs. These circuits can be found in the constant-current

driver block of the device (see functional block diagram). The fixed-delay time is 20 ns (typical), OUT0 has no

delay, OUT1 has 20 ns delay, and OUT2 has 40 ns delay, etc. The maximum delay is 300 ns from OUT0 to

OUT15. The delay works by switch on and switch off of each output channel. This means that the on/off time of

each channel is the same regardless of delay. These delays prevent large inrush currents and switching noise

which reduces the bypass capacitors when the outputs turn on.

OUTPUT ENABLE

All OUTn channels of TLC5941 can be switched off with one signal. When BLANK is set to high, all OUTn

channels are disabled, regardless of logic operations of the device. The grayscale counter is also reset. When

BLANK is set to low, all OUTn channels work under normal conditions.

Table 2. BLANK Signal Truth Table

BLANK

LOW

HIGH

OUT0 - OUT15

Normal condition

Disabled

SETTING MAXIMUM CHANNEL CURRENT

The maximum output current per channel is programmed by a single resistor, R(IREF), which is placed between

IREF pin and GND pin. The voltage on IREF is set by an internal band gap V(IREF) with a typical value of

1.24 V. The maximum channel current is equivalent to the current flowing through R(IREF) multiplied by a factor of

31.5. The maximum output current can be calculated by Equation 1:

max

V(IREF)

R(IREF)

31.5

(1)

where:

V(IREF) = 1.24 V

R(IREF) = User-selected external resistor.

Figure 3 shows the maximum output current IO versus R(IREF). R(IREF) is the value of the resistor between IREF

terminal to GND, and IO is the constant output current of OUT0 to OUT15.

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