A8739EEETR-T Allegro Microsystems Inc, A8739EEETR-T Datasheet - Page 17

A8739EEETR-T

Manufacturer Part Number

A8739EEETR-T

Description

Photoflash Capacitor Charger

Manufacturer

Allegro Microsystems Inc

Type

Flash/Torchr

Datasheet

1.A8739EEETR-T.pdf (21 pages)

Specifications of A8739EEETR-T

Number Of Outputs

Internal Driver

Type - Primary

Flash/Torch

Voltage - Supply

Mounting Type

Surface Mount

Package / Case

8-UFDFN Exposed Pad

Operating Temperature

Voltage - Output

Frequency

Current - Output / Channel

Internal Switch(s)

Yes

Efficiency

75%

Topology

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Other names

620-1365-2

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A8739

Transformer Design

1. The transformer turns ratio, N, determines the output voltage:

where 31.5 is the typical value of V

ward drop of the output diode.

2. The primary inductance, L

the switch:

where R is the total resistance in the primary current path (includ-

ing R

If V

mated by:

3. The secondary inductance, L

time of the switch. Given:

SWDS(on)

is much larger than I

= (–L

and the DC resistance of the transformer).

SECONDARY

OUT

PRIMARY

off

N = N

= 31.5 × N – V

= I

= (I

SWlim

/ R ) × ln (1 – I

/ L

SWlim

Figure 10. Transformer Selection Relationships

/ N

PRIMARY

× L

SECONDARY

× L

/ N) × L

× R, then t

PRIMARY

Ultra-Small Mobile Adjustable Xenon Photoflash

OUTTRIP

, determines the on-time of

= N × N , then

SECONDARY

SWlim

, determines the off-

× N) /V

, and V

can be approxi-

× R /V

Applications Information

OUT

is the for-

) ,

Capacitor Charger with IGBT Driver

The minimum pulse width for t

mum L

ILIM8 = 1.0 A, N = 10, and V

be at least 6.3 μH in order to keep t

relationships are illustrated in figure 10.

In general, choosing a transformer with a larger L

in higher efficiency (because a larger L

a lower switch frequency and hence lower switching loss). But

transformers with a larger L

and larger magnetic cores. Therefore, a trade-off must be made

between transformer size and efficiency.

Leakage Inductance and Secondary Capacitance

The transformer design should minimize the leakage induc-

tance to ensure the turn-off voltage spike at the SW node does

not exceed the absolute maximum specification on the SW pin

(refer to the Absolute Maximum Ratings table). An achievable

minimum leakage inductance for this application, however, is

usually compromised by an increase in parasitic capacitance.

Furthermore, the transformer secondary capacitance should be

minimized. Any secondary capacitance is multiplied by N

reflected to the primary, leading to high initial current swings

when the switch turns on, and to reduced efficiency.

off

PRIMARY

required for the transformer. For example, if

neg

115 Northeast Cutoff

1.508.853.5000; www.allegromicro.com

Allegro MicroSystems, Inc.

Worcester, Massachusetts 01615-0036 U.S.A.

PRIMARY

OUT

off

determines what is the mini-

= 315 V, then L

off

also require more windings

at 200 ns or longer. These

PRIMARY

corresponds to

PRIMARY

results

must

when

A8739EEETR-T Allegro Microsystems Inc, A8739EEETR-T Datasheet - Page 17

A8739EEETR-T

Specifications of A8739EEETR-T

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