Analog Modules, Inc. (AMI) has acquired the OmniPulse Technology (http://www.omnipulsetechnology.com/) Diode Driver and Pockels Cell Driver product lines, including relevant Patents, and intends to support all former customers with the OmniPulse product range. This additional product line supplements AMI’s existing…
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OEM Electronics for laser welding and cutting
Model 773 High Current Pulse Laser Diode Driver
The Model 773 is a low-cost, highly compact low voltage DC input power converter/laser diode driver designed to supply high pulsed current for laser diode-stack loads. Pulsed output current is 100A with less than or equal to 25us risetime into…
Posted in Laser Electronics
Model 763 OEM Seed Laser Diode Driver
The Model 763 OEM seed laser diode driver (pump laser diode driver) is ideal for driving 14-pin butterfly packaged laser diode modules or semiconductor optical amplifiers (SOA) for use in CW or pulsed fiber MOPA and EDFA systems. The driver…
Posted in Laser Electronics
Model 784 CW and Pulsed Laser Diode Driver
The Model 784 CW and pulsed laser diode driver (pump laser diode driver) is ideal for compact industrial and medical laser applications. Proprietary technology allows AMI to offer a 50A, 2.5V driver with industry leading efficiency and footprint that only…
AMI’s Model 823B Pockels Cell Driver
The Model 823B Pockels Cell/Shutter Driver is designed for continuous pulsed applications. The compact construction utilizes solid-state MOSFET technology, giving excellent trigger noise immunity and a smooth output waveform. This technique eliminates common problems associated with krytron, avalanche, and transformer…
Posted in Laser Electronics Tagged with: Add new tag, AMI, compact, High Voltage Pulser, HV Pulsed Driver, Pockels Cell Driver, Q-Switch Driver, Shutter Driver, Solid State
AMI’s Laser Spot Tracker
The 742DP is a new generation of Laser Spot Tracker with wide flexibility for missile and platform tracker applications. The detector is temperature controlled and optimized for 1.06?m. Independent five channel noise detectors set the lowest thresholds to achieve long…
Posted in Sensors and Amplifiers Tagged with: Add new tag, high sensitivity, Laser spot tracker, low cost, quadrant tracking detector/processor
Analog Modules, Inc. Receives William C. Schwartz
Longwood, FL – September 23, 2010. Analog Modules, Inc. (“AMI”) received the William C. Schwartz Industry Innovation Award representing Seminole County from the Metro Orlando Economic Development Commission (“EDC”). Named in honor of the late William (“Bill”) C. Schwartz –…
OEM Seed Laser Diode Driver, Model 762
Analog Modules, Inc. is pleased to announce the release of its OEM Seed Laser Diode Driver, Model 762. AMI’s Model 762 OEM programmable seed laser diode drivers (pump laser diode drivers) are ideal for driving 14-pin butterfly packaged laser diode…
Posted in Laser Electronics Tagged with: diode driver, fiber laser, high speed driver, LED driver, pump laser, seed laser
Hybrid APD-Preamp Optical Receiver
AMI is proud to announce our latest product. The Model 7510 is a high gain low noise APD-preamp optical receiver. The compact construction (modified TO-8 header) and PCB mounting capability make the 7510 ideal for miniature applications. The thermo-electric heater/cooler…
Posted in Sensors and Amplifiers Tagged with: Add new tag, InGaAs APD preamp, preamplifier optical receiver
Analog Modules, Inc. awarded the 3 Star Supplier Excellence Award by Raytheon SAS
Analog Modules, Inc. (“AMI”), a subsidiary of HEICO Corporation (NYSE: HEI), has been selected as a winner of the prestigious 3-Star Supplier Excellence Award by Raytheon Space and Airborne Systems (SAS) for its outstanding performance in 2008. Raytheon stated in…
Model 755A-04.1
Hybrid eyesafe laser rangefinder receiver is designed for laser rangefinding & surveying equipment. Compact construction is ideal for miniature applications. Fast recovery from To overload allows ranging to close objects without compromising long range performance. The incorporation of an InGaAs APD gives very high sensitivity with time programmed gain to minimize false targets. Operation at both 1.06 µm and 1.54 µm is possible over a wide range of pulse widths.
