IC-NZ Datasheet, PDF(9/20 Page) IC-Haus GmbH – FAIL-SAFE LASER DIODE DRIVER

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IC-NZ Datasheet, PDF (9/20 Pages) IC-Haus GmbH – FAIL-SAFE LASER DIODE DRIVER

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iC-NZ

FAIL-SAFE LASER DIODE DRIVER

DESCRIPTION OF FUNCTIONS

Rev B2, Page 9/20

iC-NZ is a three-channel laser diode pulse regulator

which is single-failure-proof and able to maintain a se-

lected laser class. The device includes the following

functions:

â¢ Monitoring of the laser current

â¢ Switching of three laser light intensity levels which

are regulated separately

â¢ Single-failure-proof via laser light monitoring using a

second monitor diode and shut-down of the laser in

the event of error via three separate, independent

switches

â¢ External error messaging

â¢ Pulses of up to 155 MHz in controlled burst mode,

during which a previously set operating point is main-

tained

â¢ Extension of the laser current with few external com-

ponents

â¢ Operation of blue laser diodes possible

To simplify the initial operation of iC-NZ the following

passage ï¬rst outlines the basic steps involved and then

goes on to provide details referring to the demo board

available for evaluation. A HL6339G HITACHI laser

diode has been used here by way of example.

Monitoring the laser current

iC-NZ monitors the laser current ï¬owing from pin LDA

(Figure 5). The DC current threshold is set using a

resistor at pin RSI. If this threshold is exceeded, the

device is shut down for safety reasons.

VDD

RSI

VDD

CURRENT MONITOR

VREF

NEN

NSEN

IRS

x500

0.5V

SDIS

ILDA

LDAOK

NSEN

LDA

LD MD

CLDA

FINITE STATE MACHINE

Figure 5: Monitoring the laser current

When dimensioning resistor RSI the following applies:

0.5 V

Imax (LDA) = 500 Ã RSI

current RSI is calculated as:

0.5 V

RSI = 500 Ã

= 3.5 k â¦

70 mA

Short pulses with higher currents are also possible as

the DC current is monitored. Capacitor CLDA supplies

the current for short, higher pulses.

Switching up to three laser power levels

The following steps must be taken to set the required

optical power:

Demo board

According to the manufacturerâs speciï¬cations laser

diode HL6339G requires a maximum current of 70 mA

for an optical power of 5 mW. For this maximum 70 mA

1. Enabling the system

2. Calibrating the low and middle channels

3. Calibrating the high channel

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