Phoenix

The Attollo Phoenix features the industry’s smallest SWIR VGA sensor at a 5µm pixel pitch.  This 640×512 resolution camera is built for low SWaP applications and offers a significant opportunity for cost-savings at the system level.  In addition to the small pixel pitch, the Phoenix employs Attollo Engineering’s high-performance InGaAs detector material enabling more pixels on target with a short focal length optic. The Phoenix’s sensor is designed specifically to support passive imaging along with day /night laser see-spot and range-gated imaging capabilities. This new miniature camera is ideal for small gimbal integration as well as use in handheld and soldier-mounted systems.

In production. Purchase now!

Please contact us to discuss your particular requirements/pricing.

CAMERA

Detector Material InGaAs
Spectral Response 1.0 µm – 1.65 µm
Array Format 640 x 512
Pixel Pitch 5 µm
Operability > 99.5%
Quantum Efficiency > 70%
Frame Rate 30 Hz, 60 Hz, 120 Hz, 220 Hz (by request), Windowing
Imaging Mode Global shutter
Integration Time Presets and user-defined, minimum = 0.1 µs
Triggering Sync-In (low-latency for see-spot & range-gating); Sync-Out
On-Board Processing Non-Uniformity Correction; Bad Pixel Replacement; AEC (Automatic Exposure Control) and AGC (Automatic Gain Control); Convolutions; Windowing

ELECTRICAL

Input Voltage 5 V +/- 10%
Power Consumption 1.6 W at 30 Hz, 1.8 W at 60 Hz
Video Output Parallel CMOS, Camera Link**, USB3**
Command and Control UART, I2C, SPI

MECHANICAL

Volume 12 cm3
Weight 32 g
Mounting 0-80, 1/4″-20 adapter and custom options available
Lens Mount Custom options available
Connector HIROSE DF40-50

ENVIRONMENTAL

Operating Temperature Range – 40°C to +71°C

** Personality boards sold separately

  • SMALL GIMBALS AND SUAS

  • SWIR SEE-SPOT

  • MACHINE VISION

  • PRECISION AGRICULTURE

  • DRIVER VISION ENHANCEMENT (DVE)

  • RANGE-GATED IMAGING

  • COVERT ILLUMINATED IMAGING

  • LASER DESIGNATOR IMAGING AND DECODE

    with separate Attollo laser event detector module

Reference Files: