ML4830CP MICRO-LINEAR [Micro Linear Corporation], ML4830CP Datasheet - Page 8

ML4830CP

Manufacturer Part Number

ML4830CP

Description

Electronic Ballast Controller

Manufacturer

MICRO-LINEAR [Micro Linear Corporation]

Datasheet

1.ML4830CP.pdf (15 pages)

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Price

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Bonase Electronics (HK) Co., Limited

Part Number:

ML4830CP

Manufacturer:

ROHM

Quantity:

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ML4830

IC BIAS, UNDER-VOLTAGE LOCKOUT AND THERMAL

SHUTDOWN

The IC includes a shunt regulator which will limit the

voltage at VCC to 13.5 (V

a current limited source, typically derived from the ballast

transformer auxiliary winding. When VCC is below V

– 0.7V, the IC draws less than 1.7mA of quiescent current

and the outputs are off. This allows the IC to start using a

“bleed resistor” from the rectified AC line.

To help reduce ballast cost, the ML4830 includes a

temperature sensor which will inhibit ballast operation if

the IC’s junction temperature exceeds 120°C. In order to

use this sensor in lieu of an external sensor, care should be

taken when placing the IC to ensure that it is sensing

temperature at the physically appropriate point in the

ballast. The ML4830’s die temperature can be estimated

with the following equation:

STARTING, RE-START, PREHEAT AND INTERRUPT

The lamp starting scenario implemented in the ML4830 is

designed to maximize lamp life and minimize ballast

heating during lamp out conditions.

The circuit in Figure 4 controls the lamp starting scenarios:

Filament preheat and Lamp Out interrupt. C(X) is charged

through R(X). The voltage at C(X) is initialized to 0.7V

filament preheat time. During that time, the oscillator

with a current of

is started with a bleed resistor from the rectified AC line

Figure 3. Typical V

arg

) at power up. The time for C(X) to rise to 3.4V is the

and bootstrapped from the ballast transformer.

V(OFF)

ing current I

V(ON)

1.3mA

VCCZ

15mA

(

R SET

CHG

(

)

and I

CCZ

R SET

0 625

(

2 5

(

). The IC should be fed with

)

waveforms when ML4830

)

in both VCO

and disch

C W

arg

mod .

CCZ

(7)

This will produce a high frequency (or low duty cycle) for

filament preheat, but will not produce sufficient voltage to

ignite the lamp.

After cathode heating, the inverter frequency drops to

If the voltage does not drop when the lamp is supposed to

have ignited, the lamp voltage feedback coming into Pin

10 rises to above V

and the inverter is inhibited until C(X) is discharged by

R(X) to the 1.2V threshold. Shutting off the inverter in this

manner prevents the inverter from generating excessive

heat when the lamp fails to strike or is out of socket.

Typically this time is set to be fairly long by choosing a

large value of R(X).

LFB OUT is ignored until C(X) reaches 6.8V threshold.

The lamps are therefore driven to full power and then

dimmed. The C(X) pin is clamped to about 7.5V.

A timing diagram of lamp ignition and restart sequences

provided by the circuit of Figure 4 is given in Figure 7.

A summary of the lamp starting scenarios are given in

figure 5 for both PWM and Frequency Modulation modes.

The PWM duty cycle is defined as:

MIN

R(X)

Dimming

Lock-out

Preheat

Control

causing a high voltage to appear to ignite the lamp.

Mode

C(X)

Figure 4. Lamp Preheat and Interrupt Timers

R(X)/C(X)

Figure 5. Lamp Starting Summary

INT

REF

6.8

Duty Cycle

REF

0 to D(MAX)%

, the C(X) charging current is shut off

D(MAX)%

PWM

50%

–

R(SET)

.625

1.2/3.4

1.2/6.8

CLK

–

[F(MAX) to F(MIN)]

F(MIN) to F(MAX)

F(MIN)

DIMMING

LOCKOUT

HEAT

INHIBIT

ML4830CP MICRO-LINEAR [Micro Linear Corporation], ML4830CP Datasheet - Page 8

ML4830CP

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