mx881 Clare, Inc., mx881 Datasheet - Page 12

mx881

Manufacturer Part Number

mx881

Description

Enon Flash Controller & Led Torch Driver

Manufacturer

Clare, Inc.

Datasheet

1.MX881.pdf (13 pages)

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MX881

Layout Notes:

•

Transformer

For 330V charger, the transformer should have a turns ratio of approximately 10 to insure that the fly-

back voltage on the primary side of the transformer does not damage the power switch internal to the

MX881. The fly-back voltage should be equal to the output voltage divided by the turns ratio plus the

VCC supply voltage. The fly-back voltage will be greater than this due to the energy stored in the

transformer leakage inductance. The actual voltage will depend on the transformer leakage inductance

and the parasitic capacitance of the circuits and layout.

The MX881 is designed to work with a transformer having a primary inductance of approximately 10µH.

Larger values are acceptable as long as leakage inductance is small. Smaller primary inductance values

may cause feedback pulses that are too short and lead to higher than expected output voltage.

IXYS Corporation makes no representations or warranties with respect to the accuracy or completeness of the contents of this

publication and reserves the right to make changes to specifications and product descriptions at any time without notice. Neither

circuit patent licenses nor indemnity are expressed or implied. Except as set forth in IXYS’ Standard Terms and Conditions of Sale,

IXYS Corporation assumes no liability whatsoever, and disclaims any expressed or implied warranty, relating to its products

including, but not limited to, the implied warranty of merchantability, fitness for a particular purpose, or infringement of any

intellectual property right

MX881

Drawing No. 088109

Parasitic capacitance on node VSEC or VPRI will cause loss of efficiency. Keep wires on this

node as short as possible.

Parasitic inductance on the transformer connections can cause overshoot during switching that

could damage the part. Keep connections from the capacitors and MX881 to the transformer

short.

Also keep the connection from pin 2 of D1 to C3 as short as possible.

The VFB node is sensitive to coupling from T1 and the VSEC node. The VSEC node ramps to

over 300 volts in just a few nano-seconds. Keep R1, R2, and R3 as far from T1 as possible. If

possible, shield resistors by placing on the other side of the board from T1.

VCC should be well bypassed to average charge current to the battery and reduce noise to

analog circuits within MX881.

VFB is a very fast and short pulse. Keep VFB connection to R7 short to minimize capacitance on

this node. If VFB has too much capacitance, the feedback voltage may be filtered so that the

output voltage does not stop at 330V but continues to a much higher voltage.

A good ground plane is extremely important. Large pulse currents of 0.7 amps will be flowing in

the ground. The large bottom pad of the MX881 is the only ground pad and requires a low

impedance return to C1, C2, and R7.

The ground plane must have adequate clearance from high voltage nodes VHV and VSEC to

avoid arcing. Also, the node connecting R1 to R2 will be at approximately 170V.

R1 and R2 must be at least 1206 size surface mount to withstand 200V each.

IXYS

www.claremicronix.com

7/30/07

mx881 Clare, Inc., mx881 Datasheet - Page 12

mx881

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