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9

WLD SERIES LASER DIODE DRIVERS

OPERATING INSTRUCTIONS 
— GENERAL

The WLD3343 drivers have dual in-line pin (DIP) packaging, 

and are intended to be mounted onto a circuit board. 

Parameters including output current range, output current 

limit, photodiode current range, and operating mode are  

configured by proper choice of external components.

We recommend using a test load until you are familiar with 

operation of the driver. Refer to 

page 3 

for test load 

information.

These instructions are broken into three sections. The first 

covers generally applicable operating instructions that are 

relevant whether or not the optional evaluation board is 

being used. The second configures the driver for standalone 

operation without the evaluation board (

page 10

). The 

third configures the driver for operation with the evaluation 

board (

page 16

).

NECESSARY EQUIPMENT

The following equipment is the minimum necessary to 

configure the WLD3343 for basic operation:

•  WLD3343 controller

•  Digital voltmeter, 4-½ digit resolution recommended

• 

Test load for configuring the driver

•  Laser diode, mount, and optional temperature control 

system

•  Recommended heat sink and optional fan

 

»

WTW002 Thermal Washer

 

»

WHS302 Heatsink

 

»

WXC303 (+5 VDC) or WXC304 (+12 VDC) Fan

•  Custom circuit board, or WLD3393 evaluation board

•  Power supply (see below)

POWER SUPPLY REQUIREMENTS

Linear-regulated or low-noise switching power supplies can 

be used. We recommend using power supplies with noise 

specifications suitable for your application.

For WLD3343, WLD3343-3A, WLD3343-2L, WLD3343-3L:

•  4.5 to 12.5 VDC power supply rated for 1.1-times the 

maximum laser diode current, plus 150 – 250 mA for 

the electronics.

For WLD3343-HB:

•  3.3 to 6 VDC power supply rated for 1.1-times the 

maximum laser diode current, plus 150 – 250 mA for 

the electronics.

• 

The  HB  offers  low  voltage  operation  for  use  with  a 

Lithium-ion battery or other low voltage power supplies.

PREVENT DAMAGE FROM ELECTROSTATIC 
DISCHARGE

Before proceeding, it is critical that you take precautions to 

prevent electrostatic discharge (ESD) damage to the driver 

and your laser. ESD damage can result from improper 

handling of sensitive electronics, and is easily preventable 

with simple precautions. 

 

For more information on ESD, see Application Note 

AN-LDTC06: Basics: Electrostatic Discharge (ESD)

.

We recommend that you always observe ESD precautions 

when handling the WLD3343 driver and your laser diode.

ONLINE TOOLS AVAILABLE

An online tool, the 

WLD Circuit Calculator

, is available to 

assist in the choosing of external components that impact 

operation. It is customizable for laser type, and operation 

mode. This automatically calculates the required external 

component values including R

LIM

, R

SENSE

, V

SET

, and R

PD

 (if 

operating in Constant Power mode).

OPERATION MODE

The WLD Series supports Constant Current and Constant 

Power modes of operation (with the exception of the -2L 

and -3L models, which only support Constant Current). 

Depending on the chosen operation mode, either the 

current through the laser diode or the current through the 

photodiode will be maintained at a fixed level.

!

Do not switch the control mode while the 

output is enabled and driving a laser diode. 

The  laser  diode  may  be  damaged  or 

destroyed.

 

Constant current through the laser diode is referred to as 

Constant Current mode, and is abbreviated CC. In CC 

mode, the setpoint is directly proportional to the laser diode 

current.

Constant current through the monitor photodiode is referred 

to as Constant Power mode and is abbreviated CP. In CP 

mode, the setpoint is directly proportional to the photodiode 

current, allowing for control of the power emitted from the 

laser diode.

Summary of Contents for WLD3343

Page 1: ...f the WLD3343 laser diode driver Onboard switches connectors and trimpots make the configuration and operation simple Input and output cables are also included with the WLD3393 The WLD3343 is excellen...

Page 2: ...or 1 2 3 4 5 6 7 14 13 12 11 10 9 8 TOP VIEW SHD VSET IMON PMON MODE LIM GND VDD PD PD OUTA RS OUTB RS Shutdown Laser Diode Output Current Setpoint Voltage Input Laser Diode Current Monitor Photodiode...

Page 3: ...D VS 2 5 1 ILIM and the power rating of the resistor is found by PRLOAD I2 LIM RLOAD 2 For example if VS is 12 V and the current limit is 2 A then RLOAD needs to be 4 75 with a power rating of 19 W Th...

Page 4: ...apacitor between this pin and Pin 6 LIM 6 LIM Laser Diode Current Limit A resistor connected between this pin and Pin 7 GND limits the maximum amount of forward current through the laser diode See pag...

Page 5: ...0 A or 2 mA POWER SELECT Separate or tied power supplies Configures the WLD3393 to either use separate VS and VDD supplies or to tie the VS and VDD connections for single supply operation VSET SOURCE...

Page 6: ...cale Fall Time 320 ns ILD Full Scale Bandwidth 2 2 MHz CC Sine Wave 2A Slow Start Delay Time 0 24 sec Slow Start Ramp Time 0 01 sec Leakage Current 3 0 mA CONSTANT CURRENT CONTROL Short Term Stability...

Page 7: ...Heatsink No Airflow 2 2 3 W TAMBIENT 25 C Max Internal Power Dissipation Heatsink Fan 9 9 10 W TAMBIENT 25 C Heatspreader Temperature Rise TAMBIENT 25 C 30 C W No heatsink washer fan 21 5 C W With WHS...

Page 8: ...erence between the two signals It may be useful to remember that you do not directly set the drive current setpoint instead you adjust a voltage signal that represents the output current The voltage a...

Page 9: ...1 times the maximum laser diode current plus 150 250 mA for the electronics The HB offers low voltage operation for use with a Lithium ion battery or other low voltage power supplies PREVENT DAMAGE F...

Page 10: ...NSE CC 1 00 4 ILDMAX ILDMAX CONSTANT POWER RSENSE CONSTANT CURRENT RSENSE 50 mA 25 00 20 00 125 mA 10 00 8 00 250 mA 5 00 4 00 500 mA 2 50 2 00 1 25 A 1 00 0 80 2 2 A 0 57 0 45 WLD3343 3A WLD3343 3L O...

Page 11: ...y calculate the value of RLIM use Equation 7 and Table 4 for the values of and RLIM ILDLIM RSENSE 1 7 1 ILDLIM RSENSE 1 LASER DIODE TYPE MODE Type A B CC 282 2 85 Type A B CP 350 3 35 Type C CC 290 2...

Page 12: ...connections TYPE A B TYPE C GND GND RPD RPD VDD OR OR CONSTANT CURRENT TYPE A B TYPE C PD PD GND GND VDD VDD PD PD 7 7 13 13 12 12 14 14 OR PIN 11 WLD3343 WLD3343 OR PIN 10 RPD RPD CONSTANT POWER Figu...

Page 13: ...ured for Constant Current operation Constant Power 1 2 3 4 5 6 7 14 13 12 11 10 9 8 WLD3343 LASER DIODE DRIVER VDD RPD RLIM 1 TIE GROUND CONNECTIONS DIRECTLY TO PIN 7 RSENSE ENABLE DISABLE IMON PMON 0...

Page 14: ...B 500 m 5 1 Figure 10 Type C laser configured for Constant Current operation Constant Power 1 2 3 4 5 6 7 14 13 12 11 10 9 8 WLD3343 LASER DIODE DRIVER RPD RLIM 1 TIE GROUND CONNECTIONS DIRECTLY TO P...

Page 15: ...IPD VPIN2 10 2 RPD MONITORING THE LASER DIODE CURRENT PIN 3 Pin 3 IMON produces a voltage proportional to the current flowing through the laser diode Equation 11 provides a transfer function for conv...

Page 16: ...ch Output Current Enable Disable Switch Fan Power Input Cable Connector Output Cable Connector Optional Supply Input NOTE LINE UP ARROW WITH LASER TYPE INDICATED ON MAIN BOARD Figure 13 WLD3393 Top Vi...

Page 17: ...lable options are the 200 mA or the 2 A position PD RANGE Jumper Set the PD RANGE jumper on the bottom of the WLD3393 to either the 200 A or the 2 mA range depending on the specifications of your phot...

Page 18: ...r to the WHS302 WTW002 WXC303 and or the WXC304 datasheets for assembly instructions Fan Connections Connect the fan leads to the and fan power positions on the terminal block and secure with a small...

Page 19: ...least twelve turns counter clockwise OFF Adjust the LIM trimpot at least twelve turns clockwise ON D Apply power to the WLD3393 and enable the output current by switching the enable switch to the ON p...

Page 20: ...nt controls the output of the WLD3343 The setpoint voltage can be adjusted using the onboard SET trimpot applying an external setpoint voltage or by summing the two signals The VSET SOURCE jumper must...

Page 21: ...the onboard toggle switch The output is enabled when the green ON LED indicator is lit see Figure 13 You can also remotely enable the WLD3343 by connecting a control signal to a via See Figure 19 Thi...

Page 22: ...A range BANDWIDTH OPTIMIZATION WITH THE WLD3393 EVALUATION BOARD To improve bandwidth shorten the cables Expect 1 8 MHz at 200 mA and 850 kHz at 2 A sine wave 3 dB point with factory length cables PO...

Page 23: ...sects the VDROP line On the X axis mark value of VS Extend a diagonal line from VS to the intersection of the VDROP and IMAX lines this is the Load Line If the Load Line crosses the Safe Operating Are...

Page 24: ...C8 1 0 F R27 51 1 C4 4 7 F D5 B0540W VA MODE VDD PDM VA VA R4 332 VA VA R17 499 R16 4 99K R23 1 00M R24 1 00M R22 1 00M R14 1 00M R7 1 00K R9 1 00K R8 1 00K R10 1 00K R6 1 00K 2 3 1 8 4 U4A AD8032 5...

Page 25: ...thin the Safe Operating Area if VDD is increased Laser does not reach desired output in Constant Power mode Photodiode feedback current is out of range for the WLD Refer to the laser diode datasheet t...

Page 26: ...to a PCB or installed in a socket soldered to the PCB Two 7 pin SIP sockets are required Wavelength recommends Aries Electronics PN 25 0513 10 WEIGHTS WLD3343 0 6 oz WHS302 Heatsink 0 5 oz WXC 303 4 0...

Page 27: ...lex 43645 00400 33 5 1 32 23 6 0 93 14 2 0 56 25 4 1 00 1 875 47 63 4 8 0 19 2 25 57 1 2 38 60 5 1 875 47 63 2 25 57 1 1 3 0 05 4 4 0 17 2 48 62 9 4 78 0 188 4 8 0 19 The WLD3343 connects to the evalu...

Page 28: ...this product NOTICE The information contained in this document is subject to change without notice Wavelength will not be liable for errors contained herein or for incidental or consequential damages...

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