MAX17127 Maxim Integrated Products, MAX17127 Datasheet - Page 13

MAX17127

Manufacturer Part Number

MAX17127

Description

Six-String WLED Driver

Manufacturer

Maxim Integrated Products

Datasheet

1.MAX17127.pdf (22 pages)

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Company:

Bonase Electronics (HK) Co., Limited

Part Number:

MAX17127ETP+

Manufacturer:

Maxim Integrated Products

Quantity:

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The MAX17127 is a high-efficiency driver for arrays of

white LEDs. It contains a fixed-frequency current-mode

PWM step-up controller, a 5V linear regulator, a dimming

control circuit, an internal power MOSFET, and six regu-

lated current sources. Figure 2 shows the MAX17127

functional diagram. When enabled, the step-up control-

ler boosts the output voltage to provide sufficient head-

room for the current sources to regulate their respective

string currents. The MAX17127 features resistor-adjust-

able switching frequency (250kHz to 1MHz), which

allows trade-offs between external component size and

operating efficiency.

The MAX17127 can implement brightness control

through the PWM signal input. The LED current is direct-

ly controlled by the external dimming signal's frequency

and duty cycle.

The MAX17127 has multiple features to protect the con-

troller from fault conditions. Separate feedback loops limit

the output voltage in all circumstances. The MAX17127

checks each FB_ voltage during operation.

If one or more strings are open, the corresponding FB_

voltages are pulled below 180mV (max), and an open-

circuit fault is detected. As a result, the respective cur-

rent sources are disabled.

When one or more LEDs are shorted and the related

FB_ voltage exceeds 8V, short fault is detected and the

respective current source is disabled if at least one FB_

voltage is lower than the minimum FB_ regulation voltage

+460mV (typ).

When in LED open or short conditions, the fault string is

disabled while other strings can still operate normally.

The MAX17127 also includes other kinds of fault pro-

tections, which are overcurrent, thermal shutdown, and

output overvoltage. The MAX17127 features cycle-by-

cycle current limit to provide consistent operation and

soft-start protection. In an overcurrent condition, the

IC latches off if the fault still exists after a 128Fs over-

current fault timer expires. The output overvoltage is a

nonlatched operation, and the step-up converter stops

switching during the fault. A thermal-shutdown circuit

provides another level of protection. The MAX17127 is

latched off once thermal shutdown occurs.

The MAX17127 includes a 5V linear regulator that pro-

vides the internal bias and gate driver for the step-up

controller.

______________________________________________________________________________________

Six-String WLED Driver with Integrated

Detailed Description

The MAX17127’s fixed-frequency, current-mode, step-

up controller automatically chooses the lowest active FB_

voltage to regulate the feedback voltage. Specifically,

the difference between the lowest FB_ voltage and the

current source control signal plus an offset is integrated

at the COMP output. The resulting error signal is com-

pared to the internal switch current plus slope com-

pensation to determine the switch on-time. As the load

changes, the error amplifier sources or sinks current to

the COMP output to deliver the required peak inductor

current. The slope-compensation signal is added to the

current-sense signal in order to improve stability at high

duty cycles.

The MAX17127 includes an internal low-dropout linear

regulator (V

ear regulator generates a 5V supply to power the internal

PWM controller, control logic, and MOSFET driver. The

5.5V, V

powered from an external 5V supply. There is a body

diode from V

The MAX17127 is disabled until V

threshold. The hysteresis on UVLO is approximately

250mV. In standby mode, the internal LDO is in low-power

mode with 10FA (max) input current and approximately

regulated at 3.3V (typ). When EN = high, the internal LDO

is enabled and regulated accurately at 5V (typ).

The V

minimum 1FF ceramic capacitor.

At startup, the MAX17127 performs a diagnostic test of

the LED array. In the test phase, all FB_ pins are pulled

up by a given current source (0.4mA min) during 1ms

(typ). If some FB_ voltage is lower than 1.2V (max), the

string is considered to be unused. Therefore, when a

string is not in use, it should be connected to AGND. All

other strings with FB_ higher than 1.2V (max) are detect-

ed as in use. After the LED string diagnostic phases are

finished, the boost converter starts. An additional 1ms

after boost soft-start end is used as minimum FB_ con-

trol. The total startup time is less than 10ms, including

2ms (typ) soft-start. Figure 3 shows the sequence.

DDIO

Internal 5V Linear Regulator and UVLO

DDIO

(see Figure 2).

voltage drops to 3.3V in shutdown. If 5V < V

DDIO

Fixed-Frequency Step-Up Controller

Step-Up Converter

DDIO

pin should be bypassed to AGND with a

DDIO

and V

). When V

to V

can be connected together and

, so V

is higher than 5.0V, this lin-

DDIO

must be greater than

exceeds the UVLO

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MAX17127 Maxim Integrated Products, MAX17127 Datasheet - Page 13

MAX17127

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