The PW-AC16 is a safe and easy way to charge and secure up to 16 Notebooks, Chromebooks or Tablets. Power is deliver via the 16 AC 240v power sockets built in. This charging system is ideal for the classroom environment or work place. The charging station features slide-out top draw for extra storage. The device separators with in-built cable managers provide easy routing of cables and tidy and safe setup.
View our full charging station range here (both charge and sync options are available): http://www.laserco.com.au/charge-and-sync-tablet-cabinets
- 16 ports AC 240v charging
- Trolley castor wheels
- Lockable door
- Top draw for extra storage
- External power switch with power indicater light
- Smart time switch. Set charging time for your devices.
- Cooling fan
|Charge & Sync Tablet Cabinets|
|Number of Bays||16|
|Side out Bay Trays||TBA|
|Space saving door||TBA|
|Adjustable trays for devices with protective covers||TBA|
|Suitable for Tablets / Laptops / Notebooks (up to 15.6 inch)||Y|
|Number of USB Sockets||N/A|
|Amps per USB Socket||N/A|
|Number of main 240v Sockets||16|
|Number of Spare 240v sockets (for peripherals)||TBA|
|Individual Charge Status Light||N|
|Data Sync (Supports iOS)||N|
|Lockable door with key||Y|
|Hygienic UV Lamp||N|
|Over current & voltage protection||Y|
|Accommodates the most popular size & shaped of AC adaptor||Y|
|Suitable for iOS / Android / Windows||Y|
|Product Dimensions (mm)||700 x 560 x 1310|
|Inner Carton Qty||1|
|Master Carton Qty||1|
|3 key feature benefits||16 AC Charging ports, Caster wheels, Smart timer controller for remote charging|
How Power Output is delivered
he three most common values used when discussing electricity are; 1) Voltage or “V” (measured in volts), 2) Resistance or “r” (measured in Ohms) and 3) Current or “I” (measured in Amps). When applying these terms to Consumer Electronics, we most commonly hear about them being applied around products like USB charging devices.
In this application most of us know USB runs on about 5.0 volts. Resistance, well, resistance is very rarely used and of little interest however when compared to current. Current is very important as it describes the strength of the voltage or how fast it flows.
If you consider your garden hose as an analogy - voltage would be the width of the hose, the current would be how fast the water flows through it. Eg. You can fill up a bucket of water faster when you turn the tap on faster.
When talking about wall plug USB chargers, built-in circuitry converts the 240 volts mains power down to 5 volts (for USB) and in varying currents or amps. Car chargers also do the same this, however they convert 12 volts down to 5 volts also with varying strengths. Early chargers only had fairly modest outputs of about 1.0 amp, however modern chargers can now output up to 2.4 amp which effectively can charge a device in almost half the time.
This 5 volt USB power can also be used not only charge your smart phone or tablet, but it can also be used to charge portable power storage devices called power banks. These power banks can also deliver varying amounts of current or amps however it is measured in a slightly different way, called Milliamp Hour or mAH for short. Eg if your smart phone has a 5,000mAh battery, you can get up to two full charges from a power bank that can hold up to 10,000mAh of power.