MAX8795AGCJ/V+T Maxim Integrated Products, MAX8795AGCJ/V+T Datasheet - Page 18

MAX8795AGCJ/V+T

Manufacturer Part Number

MAX8795AGCJ/V+T

Description

Display Drivers TFT-LCD DC-DC Conver ter with Operational

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX8795AETJ.pdf (31 pages)

Specifications of MAX8795AGCJ/V+T

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TFT-LCD DC-DC Converter with

Operational Amplifiers

REG P is enabled after the REF voltage exceeds 1.0V.

Each time it is enabled, the controller goes through a

soft-start routine that ramps up its internal reference

DAC in 128 steps.

The gate-off linear-regulator controller (REG N) is an

analog gain block with an open-drain p-channel output.

It drives an external npn pass transistor with a 6.8kΩ

base-to-emitter resistor (Figure 1). Its guaranteed base-

drive source current is at least 1mA. The regulator

including Q2 in Figure 1 uses a 0.47μF ceramic output

capacitor and is designed to deliver 50mA at -10V. Other

output voltages and currents are possible with the proper

pass transistor and output capacitor (see the Pass-

Transistor Selection and Stability Requirements sections).

REG N is typically used to provide the TFT-LCD gate

drivers’ gate-off voltage. A negative voltage can be

produced using a charge-pump circuit as shown in

Figure 1. REG N is enabled after the voltage on REF

exceeds 1.0V. Each time it is enabled, the control goes

through a soft-start routine that ramps down its internal

reference DAC from V

The MAX8795A has five operational amplifiers. The opera-

tional amplifiers are typically used to drive the LCD back-

plane (VCOM) or the gamma-correction divider string.

They feature ±130mA output short-circuit current, 45V/μs

slew rate, and 20MHz/3dB bandwidth. The rail-to-rail input

and output capability maximizes system flexibility.

The operational amplifiers limit short-circuit current to

approximately ±130mA if the output is directly shorted to

SUP or to BGND. If the short-circuit condition persists, the

junction temperature of the IC rises until it reaches the

thermal-shutdown threshold (+160°C typ). Once the junc-

tion temperature reaches the thermal-shutdown threshold,

an internal thermal sensor immediately sets the thermal

fault latch, shutting off all the IC’s outputs. The device

remains inactive until the input voltage is cycled.

The operational amplifiers have 4V input clamp structures

in series with a 500Ω resistance and a diode (Figure 2).

The operational amplifiers are typically used to drive

the LCD backplane (VCOM) or the gamma-correction

divider string. The LCD backplane consists of a distrib-

uted series capacitance and resistance, a load that can

be easily driven by the operational amplifier. However,

if the operational amplifier is used in an application with

a pure capacitive load, steps must be taken to ensure

stable operation.

Gate-Off Linear-Regulator Controller, REG N

______________________________________________________________________________________

Short-Circuit Current Limit and Input Clamp

REF

Driving Pure Capacitive Load

to 250mV in 128 steps.

Operational Amplifiers

As the operational amplifier’s capacitive load increases,

the amplifier’s bandwidth decreases and gain peaking

increases. A 5Ω to 50Ω small resistor placed between

OUT_ and the capacitive load reduces peaking, but also

reduces the gain. An alternative method of reducing

peaking is to place a series RC network (snubber) in par-

allel with the capacitive load. The RC network does not

continuously load the output or reduce the gain. Typical

values of the resistor are between 100Ω and 200Ω, and

the typical value of the capacitor is 10nF.

The UVLO circuit compares the input voltage at IN with the

UVLO threshold (2.25V rising, 2.20V falling, typ) to ensure

the input voltage is high enough for reliable operation. The

50mV (typ) hysteresis prevents supply transients from

causing a restart. Once the input voltage exceeds the

UVLO rising threshold, startup begins. When the input volt-

age falls below the UVLO falling threshold, the controller

turns off the main step-up regulator, turns off the linear-

regulator outputs, and disables the switch control block;

the operational-amplifier outputs are high impedance.

The reference output is nominally 1.25V and can

source at least 50μA (see the Typical Operating

Characteristics ). Bypass REF with a 0.22μF ceramic

capacitor connected between REF and AGND.

Once the voltage on IN exceeds approximately 2.25V, the

reference turns on. With a 0.22μF REF bypass capacitor,

the reference reaches its regulation voltage of 1.25V in

approximately 1ms. When the reference voltage exceeds

1.0V, the IC enables the main step-up regulator, the gate-

on linear-regulator controller, and the gate-off linear-regu-

lator controller simultaneously.

The IC employs soft-start for each regulator to minimize

inrush current and voltage overshoot and to ensure a well-

defined startup behavior. Each output uses a 7-bit soft-start

DAC. For the step-up and the gate-on linear regulator, the

DAC output is stepped in 128 steps from zero up to the ref-

erence voltage. For the gate-off linear regulator, the DAC

output steps from the reference down to 250mV in 128

steps from zero up to the reference voltage. For the gate-

off linear regulator’s voltage ramp soft-start, the DAC output

steps from the reference down to 250mV in 128 steps. The

soft-start duration is 14ms (typ) for all three regulators, and

DEL remains pulled down to AGND during the soft start

period.

Once the main step-up regulator, the gate-on linear-regula-

tor controller, and the gate-off linear-regulator controller

reach regulation, a 5μA current source starts charging

Power-Up Sequence and Soft-Start

Undervoltage Lockout (UVLO)

Reference Voltage (REF)

MAX8795AGCJ/V+T Maxim Integrated Products, MAX8795AGCJ/V+T Datasheet - Page 18

MAX8795AGCJ/V+T

Specifications of MAX8795AGCJ/V+T

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