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© 2007

LDTC0520 / LDTC1020

PAGE 11

LDTC1020-00400-A  Rev B

WTC OPERATION

Recommended order of setup:  

First complete the WTC temperature control 
section THEN confi gure the laser diode driver.  
Use a simulated laser diode load until you are 
comfortable with the laser driver operation.

1.  CONFIGURING HEATING AND 
 

COOLING CURRENT LIMITS

The LDTC has two trimpots that independently 
set the heating and cooling current limits:  LIM 
A & LIM B.  These are 12-turn 5k

Ω

 trimpots.  

Full current (~2.2 A) is at full Counter-Clockwise 
(CCW) position.  Table 1 shows the meaning of 
the trimpots with various sensors and actuators.  
Note that PTC sensors include 100

Ω

 platinum 

RTDs, the LM335, and the AD590.

Table 1

Trimpot function vs. Sensor & Load Type

Sensor Type

Thermistor

PTC

Thermistor

PTC

Load Type

Thermoelectric

Thermoelectric

Resistive Htr

Resistive Htr

LIM A Limits:

Cool Current

Heat Current

Turn off - 

Fully CW

Heat Current

LIM B Limits:

Heat Current

Cool Current

Heat Current

Turn off - 

Fully CW

2.  WIRE OUTPUT CONNECTION

Use Table 2 to determine the connection from 
the LDTC to your thermoelectric or resistive 
heater.

Sensor Type

Thermistor

PTC

Thermistor

PTC

Load Type

Thermoelectric

Thermoelectric

Resistive 

Heater

Resistive 

Heater

TEC+ Connector 3, Pin 6

Thermoelectric positive wire

Thermoelectric negative wire

TEC- Connector 3, Pin 7

Thermoelectric negative wire

Thermoelectric positive wire

Quick Connect:

  Connect the Resistive Heater leads to TEC+ & TEC - (polarity 

doesn’t matter).  Adjust the Cooling Current Limit A trimpot to zero - fully CW.

Max V Connect: 

 Connect one side of the resistive heater to TEC- and the other 

side to the voltage source V

S

.  LIM A trimpot setting is then irrelevant. 

Quick Connect: 

 Connect the Resistive Heater leads to TEC+ & TEC - (polarity 

doesn’t matter).  Adjust the Cooling Current Limit B trimpot to zero - fully CW.

Max V Connect:

  Connect one side of the resistive heater to TEC- and the other 

side to the voltage source V

S

.  LIM B trimpot setting is then irrelevant.

Table 2

Wiring for Sensor & Load Type

3.  CONNECT TEMPERATURE SENSOR

The standard LDTC is confi gured to operate a 
10k

Ω

 thermistor with a 100

μ

A bias current.  If 

your application requires a different sensor, see 
page 12 for details.  Wire the thermistor between 
pin 8 (SENS+) and pin 9  (SENS-) on Connector 
J3.  Operating without a temperature sensor will 
drive maximum current through the WTC, potentially 
damaging it.

CAUTION:  

Operate the LDTC with loads attached - if you 
short either the LD or TC output connections 
during setup, current will fl ow and possibly 
overheat / damage the laser diode driver or 
temperature controller.

Содержание LDTC0520

Страница 1: ...er Driver It maintains precision laser diode current Constant Current mode or stable photodiode current Constant Power mode using electronics compatible with Common Photodiode Cathode Type A B lasers...

Страница 2: ...DFB1 C20 0 012UF C25 22000PF C22 0 47uF C17 0 47uF C15 1uF C28 0 1uF L2 10uH L1 10uH D1 DIODE VIN 3 SW1 2 VOUT1 1 SHDN1 9 SHDN2 8 GND 11 SW2 4 D2 5 FB1 10 VREF 7 FB2 6 U8 LT3463 VCC VEE R18 10 0 R26 1...

Страница 3: ...9 100K VDD_WTC NO 6 COM 5 NC 4 IN 1 V 2 GND 3 U6 ISL84544 R12 1 00K 1 7 4 3 2 6 _ U5 OP777AR 5 6 7 8 4 U3B OP727ARU OS 5 6 7 8 4 U1B OP727ARU OS R14 348K 1 R7 10 0K R8 4 99K CW 3 W 2 CCW 1 R3 5K C3 4...

Страница 4: ...Diode Driver Rating Supply Voltage 1 Voltage on Pin 1 Supply Voltage 2 Voltage on Pin 14 Output Current See SOA Chart Power Dissipation TAMBIENT 25 C See SOA Chart with fan and heat sink VDD VS IOUT P...

Страница 5: ...nput Res of op amp Common Mode Range Common Mode Rejection Set point Power Supply Rejection THERMAL Heatspreader Temperature Rise Pin Solderability NOISE Noise and Ripple RMS Leakage Current TYP MIN M...

Страница 6: ...Full Temp Range Full Temperature Range Full Temperature Range 0 001 0 003 P 18 2 1 1 8 VS 0 7 VS 1 2 VS 1 6 VS 1 8 VS 1 7 4 5 4 5 20 0 60 60 GND 0 005 0 008 20 3 2 2 0 VS 0 5 VS 1 0 VS 1 4 VS 1 6 VS...

Страница 7: ...produced and transfer function correlating to temperature is determined by the sensor being utilized Monitor the temperature setpoint voltage The voltage produced and transfer function correlating to...

Страница 8: ...m current through the driver and mark on theY axis 400 mA Point B 3 Draw a horizontal line through Point B across the chart Line BB 4 Draw a vertical line from Point A to the maximum current line indi...

Страница 9: ...imum current ILoad through the driver and mark on theY axis 750 mA Point B 3 Draw a horizontal line through Point B across the chart Line BB 4 Draw a vertical line from Point A to the maximum current...

Страница 10: ...ine the maximum current through the controller and mark on theY axis 1 Amp Point B 3 Draw a horizontal line through Point B across the chart Line BB 4 Draw a vertical line from Point A to the maximum...

Страница 11: ...ic Resistive Heater Resistive Heater TEC Connector 3 Pin 6 Thermoelectric positive wire Thermoelectric negative wire TEC Connector 3 Pin 7 Thermoelectric negative wire Thermoelectric positive wire Qui...

Страница 12: ...w below 250 mV the temperature controller may have a difficult time achieving high levels of precision and stability The sensor voltage may be amplified by a factor of 10 by placing a jumper between P...

Страница 13: ...BIAS shown in Figure 4 should be changed to 2k for a bias current of 1mA through the sensor The voltage output of the LM335 is 10mV K AD590 To use an Analog Devices AD590 temperature sensor with the L...

Страница 14: ...high enough to supply the voltage required by the TEC or resistive heater plus the voltage drop across the WTC The voltage available to the TEC will be from between 0 5 to 1 8V lower than VS dependin...

Страница 15: ...voltage set using the onboard potentiometer or remote temperature setpoint and can be measured across Pin 10 SET T M and Pin 12 COM The standard LDTC is configured to operate with a 10k thermistor and...

Страница 16: ...Constant Power mode See Figure 7 for switch setting details 2 ATTACH THE FL POWER SUPPLY The control electronics for the FL500 s as well as the laser diode current are supplied by the VDD_FL power sup...

Страница 17: ...ONITOR PHOTODIODE With power removed from the LDTC connect the output connector J3 to your laser diode See figure 1 for proper pin connections The FL500 is compatible with Type A and B laser package c...

Страница 18: ...power monitor for the unit The power monitor provides a means to measure the voltage developed across the photodiode current sense resistor RPD This resistor is labeled on the silk screen on the chass...

Страница 19: ...nction for the LDTC1020 is ILD 500 mA V In Constant Power Mode the transfer function between the input voltage and photodiode cur rent is IPD 1 mA V 7 LASER DIODE SETPOINT AND MODULATION The laser dio...

Страница 20: ...d ORDERING INFORMATION LDTC0520 Comes with board one FL500 Laser Driver WTC3243 Temperature Controller base plate enclosure and unterminated power input and output cables LDTC1020 Comes with board Dua...

Страница 21: ...www teamwavelength com 2007 LDTC0520 LDTC1020 PAGE 21 LDTC1020 00400 A Rev B MECHANICAL SPECIFICATIONS...

Страница 22: ...W BLK ORANGE WHT W BLK ORG W BLK GRN W BLK LDTC2 2 SERIES WCB 302 I O CABLE PIN 1 SP1 2 SP2 3 LD SHD 4 COM 5 R LDSET 6 COM 7 LD P M 8 LD I M 9 ACT T M 10 SET T M 11 R TCSET 12 COM WIRE COLOR NC NC RED...

Страница 23: ...usive of any other life support device CERTIFICATION AND WARRANTY CERTIFICATION Wavelength Electronics WEI certifies that this product met its published specifications at the time of shipment Waveleng...

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