This right angled camera with a GigE interface is based on the On Semi IBIS 4 progressive scan sensor with a 1inch optical format.Factory calibrated Digital Pixel Correction and on-board Flat Field Correction (FFC) provides image quality similar to high-end CCD cameras.
GigE Vision: GigE Vision is a global camera interface standard developed using the Gigabit Ethernet communication protocol. GigE Vision GigE Vision allows for fast image transfer using low cost standard cables over very long lengths. With GigE Vision, hardware and software from different vendors can interoperate seamlessly over GigE connections.
GigE Vision is a widely adopted interface around the world, with dozens of leading companies currently offering hundreds of GigE Vision compliant products. GigE Vision offers many benefits including:
FAST -High bandwidth (125 MB/s) transfers large images quickly in real time
ABUNDANT -Uncompromised data transfer up to 100 meters in length
STANDARD -Low cost CAT5e or CAT6 cables and standard connectors
SCALABLE -Highly scalable to the fast growth of Ethernet
LOW COST -Standard hardware and cables allow easy, low cost integration
GigE Vision Currently in version 2.0
GigE Vision was updated from version 1.2 to version 2.0 in November 2011. Version 2.0 includes non-streaming device control. It accommodates networked video distribution applications that leverage switched Ethernet client/server video networks. Devices such as GigE Vision-enabled lights are automatically recognized by the computers on the network. Version 2.0 introduces support for faster data transfer through 10 gigabit Ethernet and link aggregation. It also enables transmission of compressed images (JPEG, JPEG 2000 and H.264), accurate synchronization of multi-camera systems and enhanced support for multi-tap sensors.
The GigE Vision specification relies on GenICam™ to describe the features supported by the camera. This description takes the form of an XML device description file respecting the syntax defined by the GenApi module of the GenICam specification.
To help achieve the goal of coherency between various vision standards, the GigE Vision committee generalized the definition of its pixel formats and created the "Pixel Format Naming Convention". The GigE Vision standard was developed and is maintained by a dedicated group of companies representing every sector of the vision industry. The AIA oversees the ongoing development and administration of the standard.
To ensure true plug and play compatibility, look for the GigE Vision Logo- only registered compliant products can carry the logo
Certified For Use With GigE Vision Systems
GigE Vision now offers a special licensing program for Ethernet products which don't implement the full standard but are configured to easily integrate vision system components and could benefit from GigE Vision branding.
Model | Mega Pixels | Sensor | Lens Format | Pixel Pitch | Sensor Type | Color Space |
PL-B741G | 1.3 | On Semi (IBIS 5B) | 2/3" | 6.7μm | CMOS | Mono |
PL-B741G-BL | 1.3 | On Semi (IBIS 5B) | 2/3" | 6.7μm | CMOS | Mono |
PL-B741G-R | 1.3 | On Semi (IBIS 5B) | 2/3" | 6.7μm | CMOS | Mono |
PL-B742G | 1.3 | On Semi (IBIS 5B) | 2/3" | 6.7μm | CMOS | Color |
PL-B742G-BL | 1.3 | On Semi (IBIS 5B) | 2/3" | 6.7μm | CMOS | Color |
PL-B742G-R | 1.3 | On Semi (IBIS 5B) | 2/3" | 6.7μm | CMOS | Color |
PL-B761G | 0.4 | Aptina (MT9V022) | 1/3" | 6.0μm | CMOS | Mono |
PL-B761G-BL | 0.4 | Aptina (MT9V022) | 1/3" | 6.0μm | CMOS | Mono |
PL-B761G-R | 0.4 | Aptina (MT9V022) | 1/3" | 6.0μm | CMOS | Mono |
PL-B771G | 1.3 | Aptina (MT9M001) | 1/2" | 5.2μm | CMOS | Mono |
PL-B771G-BL | 1.3 | Aptina (MT9M001) | 1/2" | 5.2μm | CMOS | Mono |
PL-B771G-R | 1.3 | Aptina (MT9M001) | 1/2" | 5.2μm | CMOS | Mono |
PL-B776G | 3 | Aptina (MT9T001) | 1/2" | 3.2μm | CMOS | Color |
PL-B776G-BL | 3 | Aptina (MT9T001) | 1/2" | 3.2μm | CMOS | Color |
PL-B776G-CS | 3 | Aptina (MT9T001) | 1/2" | 3.2μm | CMOS | Color |
PL-B776G-CSBL | 3 | Aptina (MT9T001) | 1/2" | 3.2μm | CMOS | Color |
PL-B776G-R | 3 | Aptina (MT9T001) | 1/2" | 3.2μm | CMOS | Color |
PL-B777G | 5 | Aptina (MT9P031) | 1/2.5" | 2.2μm | CMOS | Mono |
PL-B777G-BL | 5 | Aptina (MT9P031) | 1/2.5" | 2.2μm | CMOS | Mono |
PL-B777G-CS | 5 | Aptina (MT9P031) | 1/2.5" | 2.2μm | CMOS | Mono |
PL-B777G-R | 5 | Aptina (MT9P031) | 1/2.5" | 2.2μm | CMOS | Mono |
PL-B778G | 5 | Aptina (MT9P031) | 1/2.5" | 2.2μm | CMOS | Color |
PL-B778G-BL | 5 | Aptina (MT9P031) | 1/2.5" | 2.2μm | CMOS | Color |
PL-B778G-R | 5 | Aptina (MT9P031) | 1/2.5" | 2.2μm | CMOS | Color |
PL-B781G | 6.6 | On Semi (IBIS 4) | 1" | 3.5μm | CMOS | Mono |
PL-B781G-BL | 6.6 | On Semi (IBIS 4) | 1" | 3.5μm | CMOS | Mono |
PL-B781G-R | 6.6 | On Semi (IBIS 4) | 1" | 3.5μm | CMOS | Mono |
PL-B782G | 6.6 | On Semi (IBIS 4) | 1" | 3.5μm | CMOS | Color |
PL-B782G-BL | 6.6 | On Semi (IBIS 4) | 1" | 3.5μm | CMOS | Color |
PL-B782G-R | 6.6 | On Semi (IBIS 4) | 1" | 3.5μm | CMOS | Color |
PL-B954G | 1.4 | Sony ICX205 | 1/2" | 4.65μm | CCD | Color |
PL-B954G-BL | 1.4 | Sony ICX205 | 1/2" | 4.65μm | CCD | Color |
PL-B954G-R | 1.4 | Sony ICX205 | 1/2" | 4.65μm | CCD | Color |
PL-B955G | 1.4 | Sony ICX205 | 1/2" | 4.65μm | CCD | Mono |
PL-B955G-BL | 1.4 | Sony ICX205 | 1/2" | 4.65μm | CCD | Mono |
PL-B955G-R | 1.4 | Sony ICX205 | 1/2" | 4.65μm | CCD | Mono |
PL-B956G | 1.4 | Sony ICX285 | 2/3" | 6.45μm | CCD | Color |
PL-B956G-BL | 1.4 | Sony ICX285 | 2/3" | 6.45μm | CCD | Color |
PL-B956G-R | 1.4 | Sony ICX285 | 2/3" | 6.45μm | CCD | Color |
PL-B957G | 1.4 | Sony ICX285 | 2/3" | 6.45μm | CCD | Mono |
PL-B957G-BL | 1.4 | Sony ICX285 | 2/3" | 6.45μm | CCD | Mono |
PL-B957G-R | 1.4 | Sony ICX285 | 2/3" | 6.45μm | CCD | Mono |
PL-B958G | 2 | Sony ICX274 | 1/1.8" | 4.65μm | CCD | Color |
PL-B958G-BL | 2 | Sony ICX274 | 1/1.8" | 4.65μm | CCD | Color |
PL-B958G-R | 2 | Sony ICX274 | 1/1.8" | 4.65μm | CCD | Color |
PL-B959G | 2 | Sony ICX274 | 1/1.8" | 4.65μm | CCD | Mono |
PL-B959G-BL | 2 | Sony ICX274 | 1/1.8" | 4.65μm | CCD | Mono |
PL-B959G-R | 2 | Sony ICX274 | 1/1.8" | 4.65μm | CCD | Mono |