CAT4026V-T1 ON Semiconductor, CAT4026V-T1 Datasheet - Page 9

CAT4026V-T1

Manufacturer Part Number

CAT4026V-T1

Description

LED Drivers LED DRIVER 6CH CONTROLLER

Manufacturer

ON Semiconductor

Series

-r

Datasheet

1.CAT4026V-T1.pdf (14 pages)

Specifications of CAT4026V-T1

Constant Current

Yes

Constant Voltage

Topology

PWM

Number Of Outputs

Internal Driver

Type - Primary

Backlight, General Purpose

Type - Secondary

Frequency

Voltage - Supply

4.5 V ~ 5.5 V

Voltage - Output

Mounting Type

Package / Case

Operating Temperature

-40°C ~ 85°C

Led Driver Application

Backlighting

No. Of Outputs

Output Voltage

1.8V

Input Voltage

4.5V To 5.5V

Dimming Control Type

Analogue / PWM

Operating Temperature Range

-40Â°C To +85Â°C

Rohs Compliant

Yes

Lead Free Status / Rohs Status

Details

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Pin Functions

VDD

should be nominally 5 V.

PWM

When the first rising edge is applied to PWM input, the

CAT4026 will immediately power−up and remain powered

up until the PWM input has been held low for at least

typically 25 ms, at which point the device will enter full

shutdown mode and draw zero current.

enabled. When PWM is inactive (low level), all LED

channels are disabled. For PWM dimming frequencies in the

300 Hz range, duty cycles as low as 0.1% are supported.

the PWM input. PWM logic high and low detection levels

are typically set at 1.2 V and 1.0 V respectively.

ANLG

brightness level of all channels to be globally reduced. When

the ANLG control is taken below 3 V, the maximum LED

brightness will be equal to 1/3 of the ANLG pin voltage. If

the ANLG pin is taken above 3 V, it will have no further

effect and the brightness will remain at the full scale (100%)

setting.

exists on the ANLG pin. The external source resistance

driving this input should be taken into consideration when

controlling the ANLG input.

the ANLG pin whenever excessive voltage is present on any

LED cathode.

should be pulled high (above 3 V) to ensure full scale

brightness is maintained.

BASE[1:6]

to regulate the LED current in the associated string to the

preset value. External high−voltage bipolar junction

transistors, such as MJD340, are recommended.

each of the BASE pins in normal operating conditions. In the

event of any BASE pin being shorted directly to GND,

internal protection circuitry will limit the drive current to

15 mA (typically).

RSET[1:6]

LED current bias resistors. Each RSET pin is accurately

regulated to a voltage of 1.0 V under the full scale brightness

condition (ANLG > 3.0 V).

The VDD input is the positive supply to the devices. VDD

The PWM control input provides multiple functions.

When PWM is active (high level), all LED channels are

An internal pull−down resistor (120 kW typical) exists on

The ANLG controlled input allows the full scale

An internal resistive network to ground (150 kW typical)

A simple power derating external circuit can be applied to

If the ANLG control function is not required, the pin

The BASE output pin drives the base of the external NPNs

Operating base currents up to 5 mA can be powered from

The RSET input pins sense the voltage of the external

http://onsemi.com

to eliminate the operating base current, thereby maintaining

extremely accurate LED matching on all channels.

FLT−OCA

is latched whenever an Open Cathode−Anode fault

condition has been detected on any LED string. An external

pull−up resistor (10 kW) should be connected to FLT−OCA.

of any open−LED channel, the FLT−OCA output can be

used to drive the shutdown control of the LED power supply.

open−LED channels, the FLT−OCA should only be used for

diagnostic purposes (not for system shutdown).

CAT4026 device.

FLT−SCA

becomes active whenever any LED cathode terminal

exceeds a user programmed voltage level (at the SCA pin,

set by an external zener diode). An external pull−up resistor

(10 kW) should be connected to the FLT−SCA pin.

of any faulty LED channel, the FLT−SCA output can be used

to drive the shutdown control of the LED power supply.

LED channels, the FLT−SCA should only be used for

diagnostic purposes (not for system shutdown). In this case,

the FLT−SCA flag can be used to trigger an external power

derating circuit reducing the applied voltage at the ANLG

control input, thereby reducing the power dissipated in the

external bipolar channel transistors.

Note: If an Open−LED channel is present, the FLT−SCA

flag may become temporary active (depending on the user

threshold levels) while the system is diagnosing the

Open−channel fault. When the system has eventually

cleared (disabled) the open−channel, the fault FLT−SCA

will automatically clear itself once the system has stabilized

and returned back to normal operating conditions.

IFB

determined by the lowest LED cathode voltage as shown

below.

VCS = Vcathode + Vdiode

Each RSET pin contains internal compensating circuitry

The FLT−OCA flag output is active low (open−drain) and

For systems requiring complete shutdown upon detection

For systems which must continue operation under

The FLT−OCA is cleared upon power−down of the

The FLT−SCA flag output is active low (open−drain) and

For systems requiring complete shutdown upon detection

For systems which must continue operation under faulty

The IFB pin is a pull−down current sink with a drive level

VCS Voltage

> 4.1 V

< 3.1 V

3.3 V

IFB Drive Current (typ)

0.5 mA

1.0 mA

0 mA

CAT4026V-T1 ON Semiconductor, CAT4026V-T1 Datasheet - Page 9

CAT4026V-T1

Specifications of CAT4026V-T1

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