Wavelength Electronics PLD10000 Datasheet And Operating Manual Download

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PLD10000/PLD12500 LASER DIODE DRIVER

OPERATING INSTRUCTIONS

If you are using the driver on the benchtop or for prototyping

your laser control system, we recommend using the

PLD10EV board.

The driver is first configured for local control in order to

set the drive current limit. Then the driver is reconfigured

according to the actual application.

We recommend using a test load until you are familiar with

operation of the driver. Refer to

page 3

for test load

schematics.

NECESSARY EQUIPMENT

The following equipment is the minimum necessary to

configure the PLD for basic operation:

• PLD controller

• PLD10EV evaluation board (recommended)

• Digital multimeter, 4-½ digit resolution recommended

•

Test load for configuring the driver; laser diode, mount,

and laser temperature controller

• Connecting wires

• Power Supplies (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 single-supply operation (PLD10000 only):

• 5 VDC power supply rated for 1.1-times the maximum

laser diode current, plus 250 mA for the electronics

For the PLD12500, or to drive a high-compliance laser with

the PLD10000:

• 5 VDC power supply rated for > 250 mA

• Power supply rated for 1.1-times the maximum laser

diode drive current and > 2.5 V greater than the

compliance voltage of the laser

NOTE: For dual supply operation, it is critical to shut

down the power supply to the laser first before shutting

down the +5V supply powering the electronics. Failure

to follow this order may damage the PLD or laser.

SAFE OPERATING AREA AND
THERMAL DESIGN CONSIDERATIONS

SOA charts are included in this datasheet for quick reference,

but we recommend you use the online tools instead:

https://www.teamwavelength.com/support/design-tools/soa-ld-calculator/

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you

verify

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wiThin

The

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heaT

DissipaTion

afe

peraTing

rea

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peraTing

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ouTsiDe

The

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anD

Laser

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.

Enter the search phrase ESD Precautions for Handling

Electronics

in an internet search engine to find information

on ESD-safe handling practices.

We recommend that you always observe ESD precautions

when handling the PLD driver and your laser diode.

Summary of Contents for PLD10000

Page 1: ...witches off the output if the current limit is reached a slow start circuit ramps the output current and a mechanical shorting relay protects the laser from ESD events while the output is switched off...

Page 2: ...e Cathode Photodiode Anode Common MODE P L I H OUT LIM I PLD10000 Laser Diode Driver PD RNG 5V Analog In P Monitor I Monitor Common Lim I Mon Lim I Stat LD Enable PD Aux Aux V GND LD Anode LD Supply L...

Page 3: ...refer to Figure 4 When using the test load the actual drive current can be determined by measuring the voltage drop across the resistor Do not place an ammeter in series with the load circuit 1 5 2 5...

Page 4: ...by PD feedback range setting refer to Table 2 Range 0 to 2 5 V Impedance 1 k 18 I Monitor Laser Diode Output Current Monitor Transfer function varies by model refer to Table 2 Range 0 to 2 5 V Impeda...

Page 5: ...ge Threshold VIN 0 5 or VIN 0 5 V above Supply Voltage on Pin 15 V Input Pin Impedance 1 M Bandwidth 3 dB5 90 70 kHz Depth of Modulation at 60 kHz6 90 Rise Time 7 7 sec Fall Time 8 8 sec TIMING CHARAC...

Page 6: ...by the setpoint The current source continually monitors the actual output current compares it to the setpoint and adjusts the current if there is a difference between the two signals It may be useful...

Page 7: ...LD10000 5 VDC power supply rated for 250 mA Power supply rated for 1 1 times the maximum laser diode drive current and 2 5 V greater than the compliance voltage of the laser NOTE For dual supply opera...

Page 8: ...must be removed when using the PLD12500 The factory default configuration is with the jumper installed GND VCC GND Connector AUX VCC VCC NC PD ANODE PD CATHODE ANALOG INPUT I MONITOR COMMON MON LIM I...

Page 9: ...D Enable 10 11 12 5 V GND Internally Shorted 16 19 18 21 17 20 Analog Input LIM I Monitor LIM I Status PD Anode 3 Common Low Current PD LD OR Closed Output Enabled Open Output Disabled 10 F 5V 0 1 F 1...

Page 10: ...le 10 11 12 5 V GND Internally Shorted 16 19 18 21 17 20 Analog Input LIM I Monitor LIM I Status PD Cathode 2 Common Low Current PD LD OR Closed Output Enabled Open Output Disabled 10 F 5V 0 1 F 8 to...

Page 11: ...be damaged or destroyed CALCULATE THE MONITOR VOLTAGES Refer to the datasheet for your laser to determine the maximum forward current and calculate the LIM I Monitor voltage using this equation and t...

Page 12: ...The Analog Input voltage signal on pin 16 sums with the onboard trimpot setpoint This configuration allows the driver to be configured so that the laser current or power modulates around a DC setpoin...

Page 13: ...he external resistor 3 19 PD Range Switch 554 5 k PD Range L A A V PD Range H 2 5 V 10 6 R 500 Range A A V 6 R 500 10 Transfer Function 2 5 V 10 6 R 5 k Range 6 R 5 k 10 Transfer Function R 5 k R 5000...

Page 14: ...y grounded If the PLD driver is used with a Wavelength Electronics temperature controller you may need to use two separate power supplies that float independently of each other If the laser anode is c...

Page 15: ...5 Output Timing Revision B MODEL TURN ON TIME TURN OFF TIME SLOWSTART DELAY PLD10000 5 3 sec 9 5 sec 1 5 sec PLD12500 5 sec 8 sec 1 5 sec MONITOR CALIBRATION CIRCUIT A small offset may be present whe...

Page 16: ...DRIVER OUTPUT ON OFF AND CURRENT LIMIT TIMING Figure 18 through Figure 20 illustrate the the output turn on delay slowstart turn on off time and current limit response Figure 18 Output Turn On Delay...

Page 17: ...late the voltage drop across the controller VDROP VS VMAX VS is the power supply voltage Mark VDROP on the X axis and extend a line upward Mark IMAX on the Y axis and extend a line to the right until...

Page 18: ...ations table on page 5 If the driver is compliance limited VLD Anode pins 7 8 9 may need to be increased Verify that the PLD will be operating within the Safe Operating Area if the supply voltage is i...

Page 19: ...2 450 62 23 3 050 77 47 2 75 69 85 0 30 7 62 3 35 85 09 3 20 81 28 0 40 10 16 0 15 3 81 1 03 26 15 1 100 27 94 Figure 23 PL10000 PLD12500 Mechanical Dimensions 4 000 0 250 4 500 5 000 0 250 5 500 0 1...

Page 20: ...s document is subject to change without notice Wavelength will not be liable for errors contained herein or for incidental or consequential damages in connection with the furnishing performance or use...

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Wavelength Electronics PLD10000, Datasheet And Operating Manual

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