IR Emitter uses filaments made of tungsten, nickel chromium (NiCr), Kanthal and other materials to generate black body infrared radiation at high temperatures. It can work in continuous or pulse modes and is characterized by low power consumption, high emissivity and long service life. The device adopts TO package and can internally set gold-plated reflector, and a variety of window materials can meet the needs of various infrared applications.
| PN | Die | Peak Wavelength | Temperature Coefficient-Wavelength | Spectral Bandwidth | Divergence | Output Power - Peak | Pulse Width | Rise Time | Package | Package Style | Pin Qty. | Window | Operating Temperature | Private | High Voltage |
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| QS905D1S3J03U | 905D1S3J03 | 905 nm | 0.27 nm/℃ | 8 nm | 20*12° | 72W@80V | 2.4 ns@21℃,40ns Trig,10kHz,65V | 1.1 ns@21℃,40ns Trig,10kHz,65V | TO-56 | TO | 5 | - | -40 … 100℃ | TO-56 5pin | 15 … 80V |
| QS905D1S3J09U | 905D1S3J03 | 905 nm | 0.27 nm/℃ | 8 nm | 20*12° | 90W@80V | 2.4 ns@21℃,40ns Trig,10kHz,65V | 1.1 ns@21℃,40ns Trig,10kHz,65V | TO-56 | TO | 5 | - | -40 … 100℃ | TO-56 5pin | 15 … 80V |