Difference between revisions of "Intensify Nx50"

From Granite Devices Knowledge Wiki
Jump to: navigation, search
[checked revision][checked revision]
Line 11: Line 11:
 
| url=[http://granitedevices.com/index.php?q=oem-laser-bar-diode-driver Intensify product site]
 
| url=[http://granitedevices.com/index.php?q=oem-laser-bar-diode-driver Intensify product site]
 
| protections=Over temperature, under voltage, short circuit, laser diode protection
 
| protections=Over temperature, under voltage, short circuit, laser diode protection
 +
| dimensions=94×77.5×17 mm
 
}}
 
}}
  
 
'''Intensify Nx 50''' is a stackable constant current laser diode bar driver delivering up to 150A CW current. Parallel capability allows stacking multiple Intensify boards to scale up the power. Intensify is intended for OEM applications such as fiber laser pumping, laser tooling and laser diode burn-in.
 
'''Intensify Nx 50''' is a stackable constant current laser diode bar driver delivering up to 150A CW current. Parallel capability allows stacking multiple Intensify boards to scale up the power. Intensify is intended for OEM applications such as fiber laser pumping, laser tooling and laser diode burn-in.

Revision as of 21:11, 13 February 2013

Intensify Nx50
280px
Device type Laser diode drive
Control modes Current control
Status Prototypes
Electrical
DC supply voltage 11-13 VDC
Output current range 0.1 - 50A × number of stacked boards
Setpoint signals Analog reference for current control, Digital signals for enable & pulsing
Feedback devices On-board current & voltage sensing
Protections Over temperature, under voltage, short circuit, laser diode protection
General
Dimensions 94×77.5×17 mm
Configuration tool No software tools needed
Web site

Intensify product site

Intensify Nx 50 is a stackable constant current laser diode bar driver delivering up to 150A CW current. Parallel capability allows stacking multiple Intensify boards to scale up the power. Intensify is intended for OEM applications such as fiber laser pumping, laser tooling and laser diode burn-in.