- Manuals & Guides
Features for the Digital Wireless Observation System featuring WiSight Technology
- WVOS511 Digital Wireless Observation System Includes:
- AOM562A 5.6 LCD color monitor
- 12 Volt accessory plug
- Suction cup monitor mount
- VCMS10B Super CMOS camera
- Stainless steel hardware
- Non-corrosive camera mounting bracket
- WAOM562 5.6" LCD Color Monitor
- 5.6" Rear View LCD Monitor with 2 Camera Inputs
- 12 Volt power system
- NTSC video signal compatible
- Manual (pushbutton) or automatic (trigger) source selection
- Turn-signal (pulsed DC) compatible trigger inputs (AV1, AV2)
- On Screen Display (OSD) for AV source, picture adjustment & volume level
- Non-volatile memory for picture and volume adjustment settings
- Multiple mounting options (AMPS compatible)
- Compatible with all Voyager NTSC Cameras
- Overall Dimensions: 5-7/8"W x 5-1/4"H x 1-1/4"D
- WVCMS10B Super CMOS Camera
- High performance color optics
- Waterproof (IPX 7)
- 12 Volt DC Power
- 0 Lux
- Viewing angle (Degrees) : D 117° / H 93° / V 66°
- Machined aluminum body
- Excellent low light and high bright environment performance
- 14 IR LEDs
- Overall Dimensions 3.4”W x 1.7”H x 1.7”D
* This system can support a second camera:
- Wireless camera using the WVRXCAM1 and the 31100131 Adapter Cable
- Wired camera using the 31100131 Adapter Cable, CEC cable and the VCMS10B or other Voyager camera
- Don't take our word for it, check out the wireless system in use! Click here to watch an in-depth informational video about this premium unit.
- Check out our robot video highlighting the features of the wireless observation system by clicking here.
- ASA Electronics teamed up with Mark Polk of RV Education 101 to help restore an old Yellowstone RV! RV Education 101 creates professional RV how-to instructional videos and other resources that help RVers use and maintain their RV’s. ASA donated the TV, stereo, speakers, microwave, observation system and rooftop airconditioner for the project. To see the wireless observation install, click here.
Specifications for the Digital Wireless Observation System featuring WiSight Technology
Manuals & Guides for the Digital Wireless Observation System featuring WiSight Technology
Our hands on Engineering Research and Development team builds quality into our JENSEN & Voyager products from the beginning by expertly designing each product from the ground up and validating all designs through extensive testing that is primarily conducted in our own on-site test lab. Therefore, JENSEN Audio & Video products and Voyager Camera Systems offer MORE durability and performance than you would expect from standard electronics.
Long-Duration product exposure to constant random-frequency operational vibration and non-operational vibration to simulate rugged road conditions. Simultaneous temperature cycle and vibration exposure are also conducted for additional data that is relevant to detecting potential material/component weaknesses and calculating product life-expectancy.
UV/Salt Fog Corrosive Exposure Chamber
Exterior components are subjected to accelerated UV exposure that equates to 5-7 years of actual outdoor exposure to assure you that your electronics will look great for many years. In addition, product and product components are subjected to dry/wet cycles of highly corrosive fog/mist to test for corrosion resistance and corrosion protection effectiveness.
The last thing you need is for your radio to quit due to accidental static shock. That’s why our products go through the extensive Electrostatic Discharge Test on all exposed control areas as well as I/O connections so they can withstand the most severe static build up. Shocking, isn’t it?
Severe electrical environments are relatively common mobile applications. We understand these environments and what it takes to protect electronics that will be exposed to them. That’s why all of our products include specific and significant front-end circuit protection and filtering that is proven to withstand the toughest electrical environments. The Load Dump Tests puts destructive pulses (spikes) to simulate the sudden disconnection of the battery from the alternator while the alternator is generating current to load the battery. Such Load Dump pulses are high energy pulses with a high potential of destruction ensuring that our electronics are protected.
DC Voltage Overstress
The Reverse Polarity test uses a car battery to test durability of the product when the (+) and (–) cables are accidentally reversed.
Power Line Noise Rejection
Test throws noise onto the signal and simulates product reaction to alternator whine.
Simulated Crank Start Voltage
Used to test electronics depreciation and altercations when vehicle is turned on.
High/Low Operating Voltage Test
Both tests used to ensure electronics consistency when vehicle battery goes below or above the normal 12V. Product must remain operational throughout the test.
High/Low Operating Temperature
Long-Duration product exposure to operational temperature extremes and rapid temperature cycles that are experienced in outdoor mobile applications. In addition we test for High humidity introduced at high-temp to test effectiveness of circuit corrosion protection (conformal coating).
High/Low Storage Temperature
Used to ensure powered components withstand temperature fluctuations.
Questions about the Digital Wireless Observation System featuring WiSight Technology
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