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Combined Laser Diode and TEC Controllers


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Combined Laser Diode and TEC Controllers

Item #ITC4001ITC4005ITC4020
Current Control Range0 to 1 A0 to 5 A0 to 20 A
Compliance Voltage11 V12 V11 V
Photocurrent Measurement Ranges2 mA / 20 mA
QCW* Mode Pulse Width Range100 µs to 1 s
QCW* Repetition Rate Range1 ms to 5 s (0.2 to 1000 Hz)
TEC Current Range-8 to +8 A-15 to +15 A-15 to +15 A
TEC Compliance Voltage>12 V>15 V>15 V
TEC Output Power Max>96 W>225 W>225 W
Temperature Range Max-55 to +150 °C **
Supported Temperature SensorsThermistors, Pt100, Pt1000, AD590, AD592, LM335, LM235, LM135, LM35

*Quasi Continuous Wave
**The applicable control range depends on the sensor parameters.

Laser Diode Controller Features

  • Operate with Anode- or Cathode-Grounded
    Laser Diodes and Photodiodes
  • Also Capable of Driving LEDs in CW
  • Continuous Wave or Quasi-Continuous Wave Operation
  • Internal Function Generator for Analog Modulation
  • External Modulation Input
  • Analog Monitor Output for the Laser Current
  • Laser Diode Voltage Measurement
  • Power Efficient by Active Power Management
  • Compatible Optical Detectors:
    • Photodiodes
    • Thermopiles
    • Common Sensor Amplifiers
    • Power Meters with Voltage Output
  • Laser Diode Control Modes:
    • Constant Current (CC)
    • Constant Power (CP)
  • Enhanced Laser Diode Protection Features:
    • Adjustable Laser Current Limit
    • Adjustable Laser Power Limit
    • Laser Over Voltage Protection
    • Over Temperature Protection

TEC Controller Features

  • Excellent Temperature Stability: 0.002 °C (24 hrs)
  • Digital PID Control with Separate P, I, D Settings
  • Auto PID Setting Function
  • Adjustable Temperature Sensor Offset
  • Compatible Temperature Sensors:
    • NTC-Thermistors
    • Current Temperature Sensors
    • Voltage Temperature Sensors
    • Platinum RTD Temperature Sensors
  • TEC Control Modes:
    • Constant Temperature
    • Constant Current
  • Enhanced TEC Security Features:
    • Adjustable TEC Current Limit
    • Adjustable Temperature Limits
    • Temperature Window Protection
    • Fault-Connection and Sensor Alarm

The devices of the ITC4000 Series are a laser diode current controller combined with a TEC elements controller. Essentially this is a combination of a LDC4000 Series Current Controller and a TED4015Temperature Controller. It has been designed to provide a precise, stable current for laser diodes with injection currents of 1 A up to 20 A and an excellent temperature stabilization of 0.002 °C within 24 hrs. It supports all laser diode and monitor diode pin configurations and features a constant current (CC) or constant power (CP) mode. Most common temperature sensors can be used, and the ITC4000 can be adapted to different thermal loads via a digital PID controller. It offers an auto PID setting function or separate control of the P, I, and D parameters. For more details about these features please see the More Info tab.

The ITC4000 devices are controlled via front panel keys and intuitive operation menus on a large and easy-to-read graphic LCD display (See the Display Screens tab for some sample screens). Additionally, the ITC4000 Series can be controlled by a SCPI compatible USB Interface. A higher setting and measurement resolution is offered via remote control operation since the front panel resolution is limited by the resolution of the display. Various outputs and a digital I/O port offer many control and connectivity options. The built-in function generator allows analog modulation of the laser output out of the box.

Many enhanced features like the Quasi-Continuous Wave (QCW) operation mode, easy auto PID setting, and diverse laser diode and TEC element protection features are provided. (See the More Info tab) These features, together with the new design, provide silent and power-efficient operation, make the ITC4000 Series the ideal choice for the precise and secure operation of medium to high power laserdiodes and LEDs in lab and production environments.

Laser Diode Operation Modes

The laser diodes can be driven in either Constant Current (CC) mode, where the laser current is held precisely at the level adjusted by the user, or Constant Power (CP) mode, where an optical power sensor is used to monitor the output power of the laser for active power control. The CC mode is preferable when the lowest noise and highest response speed are required, but this mode generally requires temperature stabilizing as well. In CP mode, a feedback from the internal photodiode integrated into most laser diode packages or from an external photodiode is used to actively stabilize the laser's output power.

100 µs Pulses of 20 A

QCW Pulse Operation of the Laser Diode Controller

Figure: Oszilloscope screenshot of a typ. short 100 µs Pulse of 20.0 A generated by the ITC4020 in QCW mode

The ITC4000 Series offers two independent monitor inputs: one for photodiodes and one for thermopiles, both of which can be chosen for controlling the laser diode. The analog modulation via external input or the internal function generator allows modulation of the laser diode in CC and CP modes. A control output voltage proportional to the laser current is provided for monitoring purposes.

Pulsed Operation

Depending on the application, the ITC4000 Series of laser diode drivers can be operated in Continuous Wave (CW) or Quasi-CW (QCW) mode. For the latter the oszilloscope screenshot of a ITC4020 in QCW mode shows the quality of this controller series. The ITC4020 is at ease providing sharp and accurate 100 µs pulses of 20 A peak current without any unwanted overshoots.
The integrated pulse generator can be triggered internally with an adjustable repetition rate or externally via a BNC jack at the rear of the unit.

Enhanced Protection Features for the Laser Diode

Current Limit: A precisely adjustable current limit ensures that the maximum laser current cannot be exceeded. Thorlabs has intentionally provided limited access to this feature to prevent accidental adjustment. An attempt to increase the laser drive current above the preset limit will result in a visible and short audible indicator. Even when utilizing the external modulation feature, the current limit setpoint cannot be exceeded.
Current Source: If the connection between the current source and laser diode is interrupted, the current source automatically switches off the current output. The open current circuit condition is indicated by the “OPEN” indicator on the controller and a short acoustic warning. The separate laser ON key switches the laser current on and off. When switched off, an electronic switch within the device short circuits the laser diode for added protection. After being switched on, a soft start ensures a slow increase of the laser current without voltage peaks. Even in the case of line failure, the laser current remains transient free. Voltage peaks on the AC line are effectively suppressed by electrical filters, shielding of the transformer, and careful grounding of the chassis.

TEC Controller

The ITC4000 Series contains a high-performance digital TEC controller for currents up to ±15 A. It offers an excellent temperature stability of 0.002 °C within 24 hrs together with the same enhanced safeguard and operation features similar to the TED4015 Series . The digital PID controller can adapt to different thermal loads by individual adjustable parameters or by the auto PID function. (For more details see TED4015 Series product page). The maximum control range of the temperature sensor input spans 100 Ω to 1 MΩ for thermistors and -55 to 150 °C for temperature sensing ICs or Platinum RTD sensors. The actual applicable temperature range is limited by the connected sensor and the thermal setup. For maximum TEC element protection, the ITC offers the same features as the TED4015. These protection features include an adjustable TEC output current limit and temperature sensor malfunction alerts.

The ITC4000 Series provides a monitoring signal proportional to the difference between actual and set temperature. An oscilloscope or an analog data acquisition card can be connected to the rear panel BNC connector to monitor the settling behavior with different thermal loads.
Item #ITC4001ITC4005ITC4020
 Front PanelaRemote ControlaFront PanelaRemote ControlaFront PanelaRemote Controla
Current Control (Constant Current Mode)
Control Range0 to 1 A0 to 5 A0 to 20 A
Compliance Voltage11 V12 V11 V
Setting / Measurement Resolution100 µA16 µA1 mA80 µA1 mA320 µA
Accuracy±(0.1% + 500 µA)±(0.1% + 2 mA)±(0.1% + 8 mA)
Noise and Ripple
(10 Hz to 10 MHz, rms, typ.)		<10 µA<250 µA<10 mA
Drift, 24 hours (0-10 Hz, typ.,
at Constant Ambient Temperature)		<100 µA<300 µA<1 mA
Temperature Coefficient<50 ppm/°C
Current Limit
Setting Range1 mA to 1 A5 mA to 5 A20 mA to 20A
Resolution100 µA16 µA1 mA80 µA1 mA320 µA
Accuracy±(0.12% + 800 µA)±(0.12% + 3 mA)±(0.12% + 12 mA)
Power Monitor Input - Photodiode
Photocurrent Measurement Ranges2 mA / 20 mA
Photocurrent Measurement Resolution1 µA / 10 µA32 nA / 320 nA1 µA / 10 µA32 nA / 320 nA1 µA / 10 µA32 nA / 320 nA
Photocurrent Accuracy±(0.08% +0.5 µA) / ±(0.08% +5 µA)
Photodiode Reverse Bias Voltage0 to 10 V
Photodiode Input Impedance~0 Ω (Virtual Ground)
Power Monitor Input - Thermopileb
Voltage Measurement Ranges10 mV / 100 mV / 1V / 10V
Voltage Measurement Resolution
(for 10 mV, 100 mV, 1 V, 10 V Ranges)		1 µV / 10 µV
100 µV / 1 mV		0.16 µV / 1.6 µV
16 µV / 160 µV		1 µV / 10 µV
100 µV / 1 mV		0.16 µV / 1.6 µV
16 µV / 160 µV		1 µV / 10 µV
100 µV / 1 mV		0.16 µV / 1.6 µV
16 µV / 160 µV
Voltage Measurement Accuracy
(for 10 mV / 100 mV / 1V / 10 V Range)		±(0.1% + 10 µV) / ±(0.1% + 100 µV) / ±(0.1% + 1 mV) / ±(0.1% + 5 mV)
Voltage Input Impedance1 MΩ
Constant Power Control
Photocurrent Control Ranges0 to 2 mA / 0 to 20 mA
Photocurrent Setting Resolution1 µA / 10 µA32 nA / 320 nA1 µA / 10 µA32 nA / 320 nA1 µA / 10 µA32 nA / 320 nA
Voltage Control Ranges1 µV to 10 mV / 10 µV to 100 mV / 100 µV to 1V / 1 mV to 10V
Voltage Setting Resolution1 µV / 10 µV
100 µV / 1 mV		0.16 µV / 1.6 µV
16 µV / 160 µV		1 µV / 10 µV
100 µV / 1 mV		0.16 µV / 1.6 µV
16 µV / 160 µV		1 µV / 10 µV
100 µV / 1 mV		0.16 µV / 1.6 µV
16 µV / 160 µV
Power Limit
Photocurrent Limit Setting Ranges5 µA to 2 mA / 50 µA to 20 mA
Photocurrent Limit Resolution1 µA / 10 µA128 nA / 1.28 µA1 µA / 10 µA128 nA / 1.28 µA1 µA / 10 µA128 nA / 1.28 µA
Photocurrent Limit Accuracy±20 µA / ±200 µA
Sensor Voltage Limit
Setting Ranges		1 µV to 10 mV / 10 µV to 100 mV / 100 µV to 1V / 1 mV to 10V
Sensor Voltage Limit Resolution1 µV / 10 µV
100 µV / 1 mV		730 nV / 7.3 µV
73 µV / 730 µV		1 µV / 10 µV
100 µV / 1 mV		730 nV / 7.3 µV
73 µV / 730 µV		1 µV / 10 µV
100 µV / 1 mV		730 nV / 7.3 µV
73 µV / 730 µV
Sensor Voltage Limit Accuracy±10 µV / ±100 µV / ±1 mV / ±10 mV
Laser Voltage Measurement
Measurement Principle4-Wire
Measurement resolution1 mV160 µV1 mV160 µV1 mV160 µV
Accuracy±20 mV
Laser Overvoltage Protection
Setting Range1 V to 11 V
Resolution1 mV650 µV1 mV650 µV1 mV650 µV
Accuracy100 mV
Laser Current Monitor Output
Load Resistance>10 kΩ
Transmission Coefficient10 V/A ±5%2 V/A ±5%500 mV/A ±5%
External Modulation Input
Input Impedance10 kΩ
Small Signal 3dB Bandwidth,
CC Mode		DC to 100 kHzDC to 100 kHzDC to 50 kHz
Modulation Coefficient,
CC Mode		100 mA/V ±5%500 mA/V ±5%2A/V ±5%
Modulation Coefficient, CP Mode, Current Sensor200 µA/V / 2 mA/V ±5%
Modulation Coefficient, CP Mode, Voltage Sensor10 mV/V / 100 mV/V / 1V/V ±5%
Internal Modulation
WaveformsSine, Square, Triangle
Frequency Range20 Hz to 100 kHz20 Hz to 100 kHz20 Hz to 50 kHz
Modulation Depth0.1 to 100%
QCW Mode
Pulse Width Range100 µs to 1 s
Pulse Width Resolution1 µs
Repetition Rate Range1 ms to 5 s (0.2 to 1000 Hz)
Repetition Rate Resolution10 µs
Trigger
InputRising Edge Triggered, Starts QCW Pulse with Internal Adjusted Width
Input LevelTTL or 5 V CMOS
OutputActive High, Tracks Pulse Width
Output LevelTTL or 5 V CMOS
Death Time to Next Pulse>10 µs
TEC Current Output
Control Range-8 to +8 A-15 to +15 A-15 to +15 A
Compliance Voltage>12 V>15 V>15 V
Maximum Output Power>96 W>225 W>225 W
Resolution, CC Mode1 mA0.1 mA1 mA0.1 mA1 mA0.1 mA
Accuracy± (0.2% + 20 mA)± (0.2% + 20 mA)± (0.2% + 20 mA)
Noise and Ripple typ.<10 mA rms<10 mA rms<10 mA rms
TEC Current Limit
Setting Range0.1 A to 8 A0.1 A to 15 A0.1 A to 15 A
Resolution1 mA0.1 mA1 mA0.1 mA1 mA0.1 mA
Accuracy± (0.2% + 10 mA)± (0.2% + 10 mA)± (0.2% + 10 mA)
NTC Thermistor Sensors
Resistance Measurement Range100 Ω to 100 kΩ / 1 kΩ to 1 MΩ (2 Ranges)
Control Range Max.c-55 to +150 °C
Temperature Resolution0.001 °C
Resolution
(Resistance, 100 kΩ/1 MΩ Range)		0.1 Ω / 1 Ω0.03 Ω / 0.3 Ω0.1 Ω / 1 Ω0.03 Ω / 0.3 Ω0.1 Ω / 1 Ω0.03 Ω / 0.3 Ω
Accuracy (100 kΩ/1 MΩ Range)± (0.06% + 1 Ω / 5 Ω)
Temperature Stability
(24 hours typ.)c		<0.002 °C
Temperture Coefficient<5 mK/°C
IC Sensors
Supported Current
Temperature Sensors		AD590, AD592
Supported Voltage
Temperature Sensors		LM335, LM235, LM135, LM35
    Control Range with AD590-55 to +150 °C
    Control Range with AD592-25 to +105 °C
    Control Range with LM335-40 to +100 °C
    Control Range with LM235-40 to +125 °C
    Control Range with LM135-55 to +150 °C
    Control Range with LM35-55 to +150 °C
Resolution0.001 °C0.0001 °C0.001 °C0.0001 °C0.001 °C0.0001 °C
Accuracy AD590 Current± (0.04% + 0.08 µA)
Accuracy LM335/LM35 Voltage± (0.03% + 1.5 mV)
Temperature Stability (24 hours)<0.002 °C
Temperature Coefficient<5 mK/°C
Pt100/Pt1000 RTD Sensors
Temperature Control Range-55 to +150 °C
Resolution0.001 °C0.0003 °C0.001 °C0.0003 °C0.001 °C0.0003 °C
Accuracy
(4-Wire Measurement)		±0.3 °C
Temperature Stability (24 hours)<0.005 °C
Temperature Coefficient<20 mK/°C
Temperature Window Protection
Setting Range Twin0.01 to 100.0 °C
Protection Reset Delay0 to 600 s
Window Protection OutputBNC, TTL
Temperature Control Output
Load Resistance>10 kΩ
Transmission CoefficientΔT a 5V / Twin ±0.2 % (Temperature Deviation, scaled to Temperature Window)
TEC Voltage Measurement
Measurement Principle4-Wire/2-Wire
Resolution100 mV40 mV100 mV40 mV100 mV40 mV
Accuracy
(with 4-Wire Measurement)		±50 mV
Digital I/O Port
Number of I/O lines4 (Separately Configurable)
Input LevelTTL or CMOS, Voltage Tolerant up to 24 V
Output Level (Source Operation)TTL or 5 V CMOS, 2 mA Max
Output Level (Sink Operation)Open Collector, up to 24 V, 400 mA Max
Interface
USB 2.0According to USBTMC/USBTMC-USB488 Specification Rev. 1.0
ProtocolSCPI Compliant Command Set
DriversVISA VXI pnp™, MS Visual Studio™, MS Visual Studio.net™, LabView™, Labwindos/CVI™
General data
Safety FeaturesInterlock, Inhibit, Keylock Switch, Laser Current Limit, Laser Power Limit,
Soft Start, Short Circuit when Laser off, Adjustable Laser Overvoltage Protection,
Over Temperature Protection Temperature Window Protection
DisplayLCD 320 x 240 Pixel
Connector for Laser, Photodiode,
Interlock, and Laser On Signal		13W3 Mixed D-Sub Jack (female)
Connectors for Control Input / OutputBNC
Connector for USB-InterfaceUSB Type B
Chassis Ground Connector4 mm Banana Jack
Line Voltage / Frequency100 to 120 V and 200 to 240 V ±10%, 50 to 60 Hz
Maximum Power Consumption750 VA800 VA1000 VA
Operating Temperature0 to 40 °C
Storage Temperature- 40 to +70°C
Warm-up Time for Rated Accuracy20 min
Weight5.5 kg
Dimensions /wo Operating Elements
(W x H x D)		263 mm x 122 mm x 307 mm
Dimensions /w Operating Elements
(W x H x D)		263 mm x 122 mm x 345 mm

a Via front panel the resolution is limited by the display. Via Remote Control a higher resolution is offered.
b The Thermopile Power Monitor Input can also be used for sensor amplifiers and power meters with voltage output.
c Control range and thermal stability depend on thermistor parameters.

All technical data valid at 23 ± 5 °C and 45 ± 15% relative humidity. Subject to change without notice.

ITC Front Panel

ITC Front Panel
Click to Enlarge

CalloutConnectionCalloutConnection
1Key Switch5Escape Key
2Supply Power Switch6TEC Status Indicator
3LC Display7LD Status Indicator
4Softkeys for Menu Navigation8Adjustment Knob

ITC Back Panel

ITC Back Panel
Click to Enlarge

CalloutConnectionCalloutConnection
1TTL Input "Laser Enable In" 5 V Max9LD Output and Optical Sensor Input "Laser Output"
2TTL Input "QCW Pulse In" 5 V Max10Power Connector and Fuse Holder "Line In"
3TTL Output "Trigger Out" 0 - 5 V11USB Connector
4Optical Sensor Input "Opt Sensor In" 
0 to 10 V Max		124 mm Banana Jack for Chassis Ground
5Modulation input "Modulation In"
-10 to 10 V		13MiniDin-6 Jack "Digital I/O"
6Laser Current Monitor "Analog CTL Out"
0 - 10 V		14Actual Temperature Deviation Output "Deviation Out" -5 to 5 V
7Serial Number of the Unit15TTL Temperature Monitor Output
"Temp OK Out" 5 V
8Cooling Fan16TEC Element Output and Temperature Sensor Input "TEC Output"

LD Output

13W3 Mixed D-Sub Jack

Connector Drawing

Pin ConnectionPinConnection
1 (Thermo) Voltage Sensor Input (+)7Photo Current Sensor Input (+)
2 (Thermo) Voltage Sensor Ground (-)8Photo Current Sensor Ground (-)
3Not Connected9Not Connected
4Laser Diode Anode (+)10Laser Diode Cathode (-)
5 Output for Interlock and Status Indicator "LASER ON/OFF" (+)A1Laser Diode Ground
6 Ground Pin for Interlock and Status Indicator "LASER ON/OFF" (-)A2Laser Diode Cathode (with Polarity AG) (-)
A3Laser Diode Anode (with Polarity CG) (+)

TEC Output

17W2 Mixed D-Sub Jack

Pin Configuration

Pin ConnectionPinConnection
1Interlock, TEC ON LED (+)10PT100/1000 (-), AD590/592 (-), LM35 Out, LM135/235/335 (+)
2Voltage Measurement TEC Element (+)11PT100/1000 (+), AD590/592 (+), LM35/135/235/335 (+)
3Thermistor (-), PT100/1000 (-), Analog Ground12Analog Ground, LM35/135/235/335 (-)
4Thermistor (+), PT100/1000 (+)13Not Connected
5Analog Ground, LM35/135/235/335 (-)14I/O 1-wire (Currently Not Used)
6Digital Ground for I/O 1-wire15Ground for 12 V Output and Interlock, TEC ON LED (-)
712 V Output (for External Fan, max. current = 500 mA)S1TEC Element (+) (Peltier Element)
8Not ConnectedS2TEC Element (-) (Peltier Element)
9Voltage Measurement TEC Element (-)

Digital I/O Ports

Digital I/O

PinConnection
1I/O 1
2I/O 2
3I/O 3
4I/O 4
5GND
6I/O Supply Voltage (+12 V from internal or higher external voltage up to +24 V)

LD Enable In

BNC Female

BNC Female

Laser Enable Input (high to enable laser ON), TTL 5 V max

QCW Pulse In

BNC Female

BNC Female

Input for external trigger signal, TTL 5 V Max

Trigger Out

BNC Female

BNC Female

QCW pulse tracking output, TTL 5 V

OPT Sensor In

BNC Female

BNC Female

Input for optical sensor, 0 ... +10 V max

Modulation In

BNC Female

BNC Female

Input for external modulation signal, -10 ... + 10 V max

Analog CTL Out

BNC Female

BNC Female

Output for laser current monitoring, 0 ... +10 V

Deviation Out

BNC Female

BNC Female

Actual temperature deviation output, -5 ... +5 V

Temp OK Out

BNC Female

BNC Female

Temperature OK output (high if inside temperature window), TTL 5 V

Computer Connection

USB Type B

USB Type B

USB Type B to Type A Cable Included

Ground

 

Banana Plug

 


4 mm banana jack for chassis ground

 

CAB4005 Laser Diode Cable

This cable contains a DB-9 male connector on one side and a 13W3 male connector on the other side. Both views shown below are looking into the connector.

Female DB-9 Pin Diagram
DB-9 Male Connector
Male 13W3 Pin Diagram
13W3 Male Connector
Pin Matching
DB-9 Pin13W3 Pin
15
28
3A1
47
56
610
7A2
8A3
94
ShieldShield
DB-9 Connector Colors
PinColor
1White
2Gray and Pink
3Gray and Black
4Red and Blue
5Brown
6Blue
7Yellow and Purple
8Green and Pink
9Red
13W3 Connector Colors
PinColorPinColor
1No Connection8Green and Pink
2No Connection9No Connection
3No Connection10Blue
4RedA1Gray and Black
5WhiteA2Yellow and Purple
6BrownA3Green and Pink
7Red and Blue

CAB4000 TEC Element Cable

This cable contains a DB-9 female connector on one side and a 17W2 male connector on the other side. Both views shown below are looking into the connector.

Female DB-9 Pin Diagram
DB-9 Female Connector
Male 17W2 Pin Diagram
17W2 Male Connector
Pin Matching
DB-9 Pin17W2 Pin(s)
11, 15
24
33
42, S1
59, S2
6No Connection
710
85, 12
911
ShieldShield
DB-9 Connector Colors
PinColor
1White
2Pink and Gray
3Red and Blue
4Pink, Red, and Purple
5Black, Gray, and Blue
6No Connection
7Yellow
8Brown
9Green
17W2 Connector Colors
PinColorPinColor
1White10Yellow
2Red11Green
3Red and Blue12Brown
4Pink and Gray13No Connection
5Brown14No Connection
6No Connection15White
7No ConnectionS1Purple and Pink
8No ConnectionS2Black and Gray
9Blue

Sample Screens of the ITC4000 Series

Measurement Screen 1Measurement Screen 2
Measurement Screen 1The measurement screen offers an easy readout of measurement values and device status information. It also allows to adjust the major instrument setpoints. You can freely select two, four, or six values to be displayed with optimized character size.Measurement Screen 2Here the measurement screen is configured to 2 values. The character size is enlarged as much as possible for an easier reading.
Menu ScreenQCW Settings Screen
Menu ScreenThe menu screen allows selecting various operation modes and options.QCW Settings ScreenThis is the input screen for the Quasi-Continuous Wave (QCW) pulse mode settings, e.g. trigger source and pulse parameters.
Laser Diode Setup ScreenPhotodiode Input Screen
Laser Diode Setup Screen The laser diode setup screen
allows to enter essential laser control parameters: constant current or constant power mode, limits for laser current and laser power, speed and source of the constant power feedback loop.		Photodiode Input ScreenVia the photodiode input screen, all parameters concerning the photodiode sensor are entered.
Temperature Controller ScreenTemperature Mode Settings Screen
Temperature Controller ScreenVia the Temperature Controller Screen all parameters for the temperature controller are entered: Operation Mode, Current Limit, Current Control Mode Settings, Temperature Sensor Settings.Temperature Mode Settings ScreenFor manual optimizing, the temperature PID control loop settings can be entered here. Temperature setpoint and actual reading are accessible for convenient testing.
PID Auto-Tune ScreenPreferences Screen
PID Auto-Tune ScreenVia this screen the PID auto tune function is started. The ITC4000 automatically selects the optimal PID parameters for the current thermal setup.Preferences ScreenThe preferences screen offers access to the device preferences, e.g. display and signal settings.

Software for the ITC4000 Series

Use this link to download the below software packages:

The available software is organized into the following categories:

  1. Drivers: Instrument drivers to directly operate the device via external software to extend or adapt the functionality to user specific requirements.
  2. Utility Module: Thorlabs Device Firmware Upgrade Wizard to install new firmware.
  3. Utility Module: Thorlabs Instrument Communicator 2 for instrument communication functionality.

Laser Diode Controller Selection Guide

The table below is designed to give a quick overview of the key specifications for our laser diode controllers. For more details and specifications, or to order a specific item, click on the appropriate item number below.

Item #Drive CurrentCompliance VoltageCCaCPbModulationPackage
LDC200CV20 mA6 VYes!Yes!ExternalBenchtop
VLDC00225 mA5 VYes! Int/ExtOEM
VITC00225 mA5 VYes! Int/ExtOEM
LDC201CU100 mA5 VYes!Yes!ExternalBenchtop
LD2000100 mA3.5 V Yes!ExternalOEM
LD2000R100 mA3.5 V Yes!ExternalOEM
EK2000100 mA3.5 V Yes!ExternalOEM
LDC202C200 mA10 VYes!Yes!ExternalBenchtop
TLD001200 mA8 VYes!Yes!ExternalT-Cube
IP250-BV250 mA8 VcYes!Yes!ExternalOEM
LD1100250 mA6.5 Vc Yes! --OEM
LD1101250 mA6.5 Vc Yes!--OEM
EK1101250 mA6.5 Vc Yes!--OEM
EK1102250 mA6.5 Vc Yes!--OEM
LD1255R250 mA3.3 VYes! ExternalOEM
LDC205C500 mA10 VYes!Yes!ExternalBenchtop
IP500500 mA3 VYes!Yes!ExternalOEM
LDC210C1 A10 VYes!Yes!ExternalBenchtop
LDC220C2 A4 VYes!Yes!ExternalBenchtop
LD30002.5 A--Yes! ExternalOEM
LD3000R2.5 A--Yes! ExternalOEM
LDC240C4 A5 VYes!Yes!ExternalBenchtop
LDC40055 A10 VYes!Yes!Int/ExtBenchtop
LDC40205 A10 VYes!Yes!Int/ExtBenchtop
Dual Temperature and Current Controllers
LDC1300B1 A5 VYes!Yes!--OEM
ITC40011 A>10 VYes!Yes!Int/ExtBenchtop
ITC40055 A>10 VYes!Yes!Int/ExtBenchtop
ITC402020 A>10 VYes!Yes!Int/ExtBenchtop

a Constant Current
b Constant Power
c When using a 12 V Power Supply

We also offer a variety of rack mounted laser diode current & temperature controllers (OEM Modules, TXP Rack Modules, PRO8 Rack Modules)
ITC4001ITC4005ITC4020Part
x  Benchtop Laser Diode/TEC Controller, 1 A / 96 W
 x Benchtop Laser Diode/TEC Controller, 5 A / 225 W
  xBenchtop Laser Diode/TEC Controller, 20 A / 225 W
xx Cable TED4000/ITC4000 to laser mount, 5 A, 17W2, D-Sub-9 (CAB4000)
  xCable TED4000/ITC4000 to laser mount, 20 A, 17W2, 17W2 (CAB4001)
xx Cable LDC4000/ITC4000 to laser mount, 5 A, 13W3, D-Sub-9 (CAB4005)
  xCable LDC4000/ITC4000 to laser mount, 20 A, 13W3, 13W3 (CAB4006)
xxxMixed D-Sub Connector, 17W2, male & female with 2 high current contacts each, 20 A (CON4001)
xxxMixed D-Sub Connector, 13W3, male & female with 3 high current contacts each, 20 A (CON4005)
xxxUSB Cable A-B, 2 m
xxxInstrumentation CD Series 4000
xxxPrinted Operation Manual ITC4000 Series
xxxCertificate of Calibration
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Posted Comments:
Poster: tschalk
Posted Date: 2012-10-23 12:10:00.0
A response form Thomas at Thorlabs: Thank you for your inquiry! The ITC4001 has a USB connection which can be used to remotely program any desired temperature sweep. We offer a full SDK to achieve such tasks which is documented in the programmer's reference manual. While a temperature sweep of 1 s is in principle no problem for the ITC4001, the thermal time constant of the complete system (driver + Pelletier+ holder for the laser diode + diode) might prevent this. This will depend on the available power from the ITC4001, the size and efficiency of the Pelletier element and the mechanical properties of the holder for the laser diode. I will contact you directly to discuss the details of your setup in order to see if the sweep time you need could be achieved with the ITC4001.
Poster: oscar.esteban
Posted Date: 2012-10-23 10:31:24.257
Dear Thorlabs team, I'm interested in performing wavelength sweeps thorugh temperature changes. The interest ranges would be about 1 nm with a change rate of about 1s. I know that old modules allowed to do this kind of experiemnts, but I'm not sure how to do with this new one. Is it possible? How? Thank you very much. Óscar
Poster: gurakyu
Posted Date: 2012-07-20 15:55:55.0
hi. I have a question about your equipment, ITC4020 model your company provide. First of all, I want to know if it is possible to control ITC4020 by using USB, and I can get a value of result and temperature control by using Labview program. If possible to get the value, let me know whether you have some program you provide or some sample coded by Labview. Unless you have it, can you let me exactly know how to connect ITC4020 with Labview and code the program. Thanks.
Poster: jvigroux
Posted Date: 2012-07-20 12:28:00.0
A response from Julien at Thorlabs: Thank you for your inquiry. You can control all parameters accessible on the front panel of the device also per USB. We offer a full SDK for the ITC4000 lines. This SDK can be installed with the CD provided with the unit or downloaded from our website under tab software of the ITC4000 product page. The SDK contains all necessary Labview VI's. Those are automatically installed in the instr.lib folder of labview provided a Labview version is already installed. this means that you can access the VI's from the function palette of Labview also. We also provide a Labview example that shows how to communicate with the device. This example can be found after installation of the driver in C:\Program Files\IVI Foundation\VISA\WinNT\TL4000_Drv\Samples\LabVIEW
Poster: sharrell
Posted Date: 2012-07-19 11:50:00.0
A response from Julien at Thorlabs: Thank you for your inquiry! The ITC4001 has an analog input that can be used to control the laser diode current. This input could be for instance connected to the analog output of your DAQ card directly since it accepts voltages. The resolution achievable in terms of current setting for this input is the same as the resolution specified for the unit, namely 16 µA. The small signal 3 dB bandwidth of the ITC4001 is 100 kHz and will probably the main speed limiting factor in your case.
Poster: ta_nis80
Posted Date: 2012-07-18 07:46:02.0
Dear Thorlabs Team Please, I need to confirm some questions about (LASER DIODE AND TEC CONTROLLERS). I plan to design a feedback system to stabilize Laser diode (LD)(CW) with Confocal Fabry Perot Cavity (CFPI)at spectral frequency. I ask about the capability and the method to connect (DAQ-500MHz bandwidth) with (ITC4001)to control the laser diode current to change the spectral frequency. Will I need to voltage current converter and what is the Resolution of driving current? (100 µA ?) – How much is the response time or frequency to control the laser current. With my best regards Tamer
Poster:
Posted Date: 2012-04-04 09:48:39.0
I am interested if two ITC4001 devices can be connected in parallel to achieve higher laser diode current (e.g. 1.5A).
Poster: jvigroux
Posted Date: 2012-04-04 09:09:00.0
A response from Julien at Thorlabs: Thank you for your inquiry! The ITC4001 is a regulated current source, so that the output current is constantly measured and the supplied voltage readjusted based on the last measured current, so that the output current is. Should you use two of those in parallel, the system could become unstable as the interaction between both source currents might lead to one device trying to regulate for the other. I would strongly recommend using a higher current version of this driver line like for instance the ITC4005. Should you need any further information, please do not hesitate to contact us at techsupport@thorlabs.com.
Poster: Thorlabs
Posted Date: 2010-06-28 09:09:27.0
Response from Javier at Thorlabs to hitech_laserservices: the ITC laser diode and temperature controllers feature internal and external modulation from DC up to 100 kHz (50 kHz for the ITC4020). The internal modulation is programmable through the LD Modulation section of the menu. Also, an external modulation input can be connected at the back of the unit through a BNC connector. Now, in order to modulate the output of the laser up to 300 kHz, you can use the Bias-T input of the LM14S2 temperature controlled butterfly laser diode mount. This input allows for modulation from 200 kHz up to 500 MHz (http://www.thorlabs.com/NewGroupPage9.cfm?ObjectGroup_ID=1558&pn=LM14S2). Keep in mind that the maximum current input allowed by the LM14S2 is 5 A.
Poster: hitech_laserservices
Posted Date: 2010-06-26 07:32:20.0
Dear Sir, Please let us know, how could we use these models to drive our fiber laser module in pulsed mode. pulse repetition rate being 30 to 300 kHz. We are developing a ytterbium fiber laser module. With regards Ramesh
Poster: Adam
Posted Date: 2010-03-17 18:14:39.0
A response from Adam at Thorlabs to J.mccord: The LDC40XX and ITC40XX can be used to control LEDs. To answer your question about operating these in pulsed mode, we would need more information. Can you please let us know the repetition rate, pulse width, and cooling requirements. We will email you directly to get all this information.
Poster: j.mccord
Posted Date: 2010-03-16 14:51:58.0
Hi there, can this also be used to drive a high power LED in a pulsed mode? Best regards, Jeffrey McCord
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ITC4000 Series Benchtop Controller
Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal/Imperial Price Available / Ships
ITC4001 Support Documentation ITC4001 Benchtop Laser Diode/TEC Controller, 1 A / 96 W $2,950.00
Today
ITC4005 Support Documentation ITC4005 Benchtop Laser Diode/TEC Controller, 5 A / 225 W $3,400.00
Today
ITC4020 Support Documentation ITC4020 Benchtop Laser Diode/TEC Controller, 20 A / 225 W $3,900.00
Today
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Laser Diode Connector Cables
Item # CAB4005 CAB4006 CON4005
Click Image to Enlarge CAB4005 CAB4006 CON4005
Description Standard Laser Diode Cable High Current Laser Diode Cable 13W3 Male and Female
Connector Kit (One Each)
Max Current 5 A 20 A 20 A
Connector Type 13W3 Male to DB-9 Male 13W3 Male to 13W3 Male Loose 13W3 Connectors,
Male and Female

These cables connect our ITC4000 series dual current / temperature controllers or our LDC4000 series current controllers to laser diodes. We also provide loose 13W3 connectors for customers who wish to make their own cables. For the pinout of the CAB4005 cable, please see the Pin Diagrams tab.

Please note that one CAB4005 cable and one CON4005 connector set are included with the purchase of an ITC4000 series benchtop controller.

Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal/Imperial Price Available / Ships
CAB4005 Support Documentation CAB4005 Connection Cable for LDC4000/ITC4000, 13W3 to D-Sub-9, 5 A $126.00
Today
CAB4006 Support Documentation CAB4006 Connection Cable for LDC4000/ITC4000, 13W3 to 13W3, 20 A $129.00
Today
CON4005 Support Documentation CON4005 Connector Kit, 13W3 Male & Female, 20 A $14.50
Today
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TEC Element Connector Cables
Item # CAB4000 CAB4001 CON4001
Click Image to Enlarge CAB4000 CAB4001 CON4001
Description Standard TEC Element Cable High Current TEC Element Cable 17W2 Male and Female
Connector Kit (One Each)
Max Current 5 A 20 A 20 A
Connector Type 17W2 Male to DB-9 Female 17W2 Male to 17W2 Male Loose 17W2 Connectors,
Male and Female

These cables connect our ITC4000 series dual current / temperature controllers or our TED4015 temperature controller to thermoelectric cooling elements. We also provide loose 17W2 connectors for customers who wish to make their own cables. For the pinout of the CAB4000 cable, please see the Pin Diagrams tab.

Please note that one CAB4000 cable and one CON4001 connector set are included with the purchase of an ITC4000 series benchtop controller.

Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal/Imperial Price Available / Ships
CAB4000 Support Documentation CAB4000 Connection Cable for TED4000/ITC4000, 17W2 to D-Sub-9, 5 A $115.00
Today
CAB4001 Support Documentation CAB4001 Connection Cable for TED4000/ITC4000, 17W2 to 17W2, 20 A $170.00
Today
CON4001 Support Documentation CON4001 Connector Kit, 17W2 Male & Female, 20 A $22.00
Today
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ITC4000 Series Calibration Service

Thorlabs offers Calibration Services for the ITC4000 LD Current/TEC Benchtop Controller Series.
To ensure accurate measurements, we recommend recalibrating the devices every second year.

Based on your currency / country selection, your order will ship from Newton, New Jersey  
+1 Qty Docs Part Number - Universal/Imperial Price Available / Ships
CAL-ITC4000 Support Documentation CAL-ITC4000 Recalibration Service for ITC4000 $360.00
Lead Time
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Additional Dual Current / Temperature Controller
  • Current and TEC Controller

  • LD / TEC Controller and Mount Kit

  • Compact LD / TEC Controller with Touch Screen

  • PRO8 Rack Controllers

  • TXP Rack Controllers

  • Butterfly Mount and Controller Combination

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