639nm Diode Laser, Elliptical Beam, Output Power: 30mW

LDKT-639-30E

LDKT continuous-wave laser diode modules are designed specifically for high-end Life Science, Research, and OEM applications requiring superior beam quality, ultra-stable wavelengths and consistent output powers. These laser modules are available in a wide range of UV, Visible, and IR wavelengths and have either a round or elliptical beam shape. The LDKT operates with an onboard microprocessor allowing for advanced integration and user control. Wavelength and output power stability is enabled by a precision current source as well as a precision temperature controller which is incorporated into the module. The low operating voltage creates less heat, thereby increasing diode lifetime, stability, and reliability. The mechanical and electrical design of the LDKT laser allows for a cost effective solution without sacrificing performance.
◦ Exceptionally stable output power
◦ User-focusable beam collimated by glass (not Plastic) aspheric lens
◦ Fail-safe internal temperture control guarantees long life
More Information
Name 639nm Diode Laser, Elliptical Beam, Output Power: 30mW
Weight 0.2900kgs
Standard Coatings Available No
Attention Compatible Controller: LDKT-CU-5V
Wavelength Range 639nm
Wavelength 639nm
Color Category Red
Power 30mW
Laser Spot Dimensions at Exit (1/e2) 1.98x5.9mm
Envelope Dimensions 40x40x100mm
Input Voltage 5VDC
Power Stability in APC Mode 1%
Beam Pointing Stability <5uRad/C Deg.
Polarization Linear, >100:1 Ratio at Max. Power
Collimated Beam Divergence <1mrad
Compatible Controller LDKT-CU-5V
CDRH Laser Safety Classification 3b
Contents of Box Laser, Focus Adjustment Tool, DB15 Pigtail Cable
In stock
SKU
LDKT-639-30E
$3,622.00

Delivery in : 2-3 weeks

LDKT continuous-wave laser diode modules are designed specifically for high-end Life Science, Research, and OEM applications requiring superior beam quality, ultra-stable wavelengths and consistent output powers. These laser modules are available in a wide range of UV, Visible, and IR wavelengths and have either a round or elliptical beam shape. The LDKT operates with an onboard microprocessor allowing for advanced integration and user control. Wavelength and output power stability is enabled by a precision current source as well as a precision temperature controller which is incorporated into the module. The low operating voltage creates less heat, thereby increasing diode lifetime, stability, and reliability. The mechanical and electrical design of the LDKT laser allows for a cost effective solution without sacrificing performance.