One channel 5A 3-24V laser diode driver with digital temperature controller circuit and anodized heatsink. Proper size of the heatsink allows the driver to work well with up to 10W power dissipated on power transistor. The temperature controller is using a PID algorithm to maintain the set temperature. 10A version of the driver is available per request.
Delivery time: days
Manufacturer: Opt Lasers
Available quantity: 29 Item Items Last items in stock!
New version (fourth) of the driver has been released.
Screw connectors - all in the same size, easier to connect wires
Test jumper - the possibility of switching on the driver without external analog signal
Current monitor output - the convenient place to measure the current flowing through the diode
Signal diodes: diode enable, TEC, warning
Labels on the board - more intuitive and easier to set
High TEC current - up to 15A
Included heat sink
The logic part of the driver is powered from TEC line, it allows to use 3,3V PSU to power the infrared diodes without a big amount of dissipated heat. TEC part should be connected even if not used to the voltage in 7,5V - 24V range.
The subject of the auction is a professional driver for laser diodes with a built-in digital temperature controller using the PID algorithm. Its size allows for mounting it in small devices such as compact laser projectors. Thanks to an included heatsink you do not need to worry about heat dissipation, drilling holes, and isolation of power transistors from the heat sink. It is a fully functioning component ready to be mounted in laser devices.
Despite its small size, the driver is able to work with thermocouples (Peltier modules) such as 12706, 12708, 07113, and many others that draw up to 15 A of current. Despite high current, thanks to using PWM the controller does not heat up. Used PID algorithm learns the behavior of the system, hence quicker reacts to changes in temperature and provides higher accuracy of stabilization. The driver easily handles all laser diodes of up to 5W, and at the customer's request, it is possible to customize the driver up to 10A version. Separate laser diode supply voltage input and TEC input enable the selection of any components the driver can work with. Analog input allows for the modulation of the current flowing through the diode up to 100kHz. Two potentiometers are used to set the values of maximum diode current and bias current. The third potentiometer is responsible for setting the setpoint temperature in the range of 0 to 40 degrees Celsius. The possibility to power laser diodes of any wavelength and control the Peltier modules with a rated voltage from 7,5 to 24V and current up to 15A make this driver truly unique and extremely versatile. Diode line can be powered with voltages from 3V up to 24V so it makes it fully functional for any kind of laser diode.
At another auction, you can find the same driver but without a heat sink. This reduces the shipping and production costs but requires the ensuring of an adequate cooling for the driver.
The minimum diode input voltage should be higher or equal to 7V, in other situations it is given by the formula:
Vin = 0,4* I + Vd + 0,6V
Vin - input voltage
Vd - diode working voltage
I - desired maximum current
Modulation input can be used as TTL input with its logic levels of 0V and 5V or as an analog input. Analog modulation means that by using 2,5 V on ANG input you get 50% output power, analogically by using 4 V you get 80% output power, etc. This input can also be used as PWM input the only requirement is that the base frequency of the PWM signal is in range of 5-20kHz,
You should be very careful not to cause a short circuit between the + (VCC) of the power supply and - (GND) of the analog input, as a thin GND analog path can be irreparably damaged.
We recommend the use of power cables with the cross-section of at least 0.5 mm2.
The circuit responsible for powering a laser diode is protected against reversed polarity. The high current Schottky diode of an extremely low forward voltage secures the laser diode against connecting reversed voltage with the aim of protecting frequently the most expensive part of the entire device - a laser diode. In turn, the low forward voltage does not cause excessive heat loss during normal operation.
The analog input is protected by a 5V1 Zener diode on occasion there appears the voltage higher than 5V. Despite everything, this input should not be used with higher voltages.
A microcontroller ensures the proper operation of the entire system.
At the start, the microcontroller is checking the connection with a thermistor. If there is no thermistor used the WARNING LED is blinking but the driver is still working. If the connection with the thermistor is lost during normal work, the microcontroller turns off the laser diode supply circuit and does not allow for its further load, it also switches off the DIODE LED and switch on WARNING LED. The TEC line is also switched off. The same situation happens when the thermistor reaches a temperature above 50 degrees Celsius
The driver is fitted with a two-second soft-start designed to protect the laser diode against switch-on effects.
|Compliance Voltage||3,3 - 24 V|
|Dimensions||75 x 45 mm|
|Max Ouptut Current||5 A|
|Max. Modulation Frequency||100 kHZ|
|Max. Power Dissipation||15W|
|Max. TEC Current||15 A|
|Modulation Input Voltage Range||0 - 5 V|
|Mounting Hole Spacing||38 x 48 mm|
|Pre-Set Current Setting||2000 mA|
|Softstart Time||2000 ms|
|Temperature Sensor Type||10k NTC thermistor|
|Transistor Type Used||N-MOSFET|
|Temperature Stabilization Accuracy||±0,1 °C|
|Rise Time||less than 1.5µs|
|Fall Time||less than 1.5µs|
|Noise and Ripple (RMS)||12.5 mA|
|Minimum Current (3% Noise)||500 mA|