New Powerbox Sensor Switch V3
#1
Thread Starter
New Powerbox Sensor Switch V3
The PowerBox Sensor V3 is the third generation of the PowerBox Sensor, which is well-known throughout the world. For almost twenty years the PowerBox Sensor has represented the standard for small to medium-sized models thanks to its compact format and versatility.
By using the latest components we have been able to reduce the size of the Sensor V3 significantly. For example, the case is now exactly half as deep (11 mm compared with 22 mm). Nevertheless, the Sensor V3 still fits neatly in the aperture used by its predecessor.
The introduction of a top-quality aluminium case, machined and anodised, has brought a substantial increase in the unit’s cooling efficiency, with the result that the maximum continuous current capacity of the PowerBox Sensor V3 is around 35 % higher. In fact, the peak load capacity is twice as high: the Sensor V3 can handle more than 20 A for several seconds!
The Sensor V3 offers two user-selectable output voltages: for normal servos it can be set to a regulated 6.0 V, while a regulated 7.8 V is available for HV servos– provided that the batteries supply the higher input voltage required.
Power to the unit can be drawn from four different battery types: LiPo, LiIon, LiFePo, NiMH. Ultra-bright RGB LEDs are fitted to indicate battery voltage; they light up in various colours to display the charge status of the batteries.
CORE users also benefit from one special additional feature: both battery voltages can be displayed directly on the transmitter by means of telemetry.
FEATURES
By using the latest components we have been able to reduce the size of the Sensor V3 significantly. For example, the case is now exactly half as deep (11 mm compared with 22 mm). Nevertheless, the Sensor V3 still fits neatly in the aperture used by its predecessor.
The introduction of a top-quality aluminium case, machined and anodised, has brought a substantial increase in the unit’s cooling efficiency, with the result that the maximum continuous current capacity of the PowerBox Sensor V3 is around 35 % higher. In fact, the peak load capacity is twice as high: the Sensor V3 can handle more than 20 A for several seconds!
The Sensor V3 offers two user-selectable output voltages: for normal servos it can be set to a regulated 6.0 V, while a regulated 7.8 V is available for HV servos– provided that the batteries supply the higher input voltage required.
Power to the unit can be drawn from four different battery types: LiPo, LiIon, LiFePo, NiMH. Ultra-bright RGB LEDs are fitted to indicate battery voltage; they light up in various colours to display the charge status of the batteries.
CORE users also benefit from one special additional feature: both battery voltages can be displayed directly on the transmitter by means of telemetry.
FEATURES
- High-performance battery backer
- Ultra-light unit, compact format
- Double regulated output voltage
- Redundant switch and regulator circuitry
- User-selectable output voltage: 6.0 V or 7.8 V
- Separate RGB LED voltage indicators for each battery
- Telemetry support for CORE systems
- Supports 4 different battery types: 2s LiPo, 2s LiIon, 2s LiFePo and 5s NiMH
- Regulator monitoring
- Suppression of servo feedback currents
#7
Mine has arrived for MY giant Cub, Balsa USA 1/3 with. OS Pegasus 320 !
The new unit offers substantial benefits over the previous version, many of
which I have used for years, including single button control and Core telemetry !
The new unit offers substantial benefits over the previous version, many of
which I have used for years, including single button control and Core telemetry !
#8
Thread Starter
One thing to understand with the thin nature of the new design, the wires are very close to the mounting flange. I spoke with Richard this morning and heatshrink will be added.
If you file a lead in slot like this it’s fine
Dave
If you file a lead in slot like this it’s fine
Dave
#9
Quick question
Hi, from what I understand when using the powerbox sensor the capacity of your batteries is added. For example if I plan on using 4000mah I can use 2 2000mah packs with the sensor. Is this correct, or do I need 2 4000mah packs?
#12
My Feedback: (18)
Note: Definitely cut relief slots for the wires, they are installed very close to the aluminum heat sync and unless you provide access you could pinch or fray a wire. Dave already covered this very well above, I learned this the hard way.
Last edited by skunkwurk; 11-29-2020 at 09:43 AM.
#13
Thread Starter
If you fly Core you can connect this to the Rx and get real time figures too.
For years the Sensor switch has trounced every other switch set up with efficiency and safety, I have more than 2000 flights with Sensor switches and every one has been faultless. My first one is still in the original Classic Flash ‘manual’ airframe, still the same Thunderpower 2s 2100 Prolite cells, I lost track on flights past 600 on that airframe, one of my friends went past 850 on his unit (his turbine expired at 127 hours!) in the Flash I average 110Mah use per pack per flight.
Dave
For years the Sensor switch has trounced every other switch set up with efficiency and safety, I have more than 2000 flights with Sensor switches and every one has been faultless. My first one is still in the original Classic Flash ‘manual’ airframe, still the same Thunderpower 2s 2100 Prolite cells, I lost track on flights past 600 on that airframe, one of my friends went past 850 on his unit (his turbine expired at 127 hours!) in the Flash I average 110Mah use per pack per flight.
Dave
#14
Like Dave, I have been using the PB sensor switch for donkey’s years in jets and gliders without a single problem.
That said , I particularly like the new one, just ONE finger to actuate.
Looks njcer , too.
That said , I particularly like the new one, just ONE finger to actuate.
Looks njcer , too.