DESCRIPTION
Engineered for subsea power distribution systems, the MOS Low-Side Switch Board provides high-current switching on the negative (low) side of the circuit. It is ideal for controlling lights, thrusters, solenoids, and other underwater loads where power is distributed centrally and switched locally using remote input signals.
The board accepts logic-level control signals, including PWM, and is designed specifically for use with self-locking (latching) switches. It is not compatible with momentary or self-resetting switch types. Supported Blu-Sub switches include:
- Subsea M10 Rotary On/Off Switch
- Subsea M8 Rotary On/Off Switch
- Subsea M10 Rotary Waveband Switch
- Subsea M10 Pressure Trigger Switch (Conditionally Compatible)
Note: The Pressure Trigger Switch becomes compatible once the device is submerged to its trigger depth, where it automatically latches closed. While the switch can also be used in shallow water, manual pressing (momentary activation) is not compatible with this board and will not trigger switching.
Internally, a low-resistance MOSFET mirrors the input signal to reliably control current flow through the connected load. The circuit board includes a replaceable fuse seat to match the selected load current (15A, 30A, or 120A), providing safety and flexibility for various underwater applications.
Precautions for Use
Do not exceed the rated voltage or current limits. Operating the device outside its specified range may result in overheating, smoke, or fire and must be strictly avoided.
Avoid contact with the circuit board while powered. To prevent electric shock, ensure the power supply is disconnected before installing, wiring, or troubleshooting the board.
Follow the correct wiring procedure. Always confirm the wiring diagram before making any terminal connections. Incorrect wiring can lead to malfunction, overheating, fire, or other hazards.
Compatible with Subsea Latching Control Switches
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This board accepts simple on/off control signals from Blu-Sub’s rotary subsea switches. Choose from compact or full-size models depending on your enclosure and control preferences. All supported switches are self-locking and designed for underwater applications.
Subsea M8 Rotary On/Off Switch
A compact, latching rotary switch designed for subsea power control in tight enclosures. Threads directly into M8 bulkheads and outputs a direct on/off signal for use with this switch board.
Subsea M10 Rotary On/Off Switch
A rugged, full-size rotary switch with optional shell and knob styles. Provides a mechanical latching signal compatible with all versions of the MOS Low-Side Switch Board.
Subsea M10 Rotary Waveband Switch
A multi-position, latching M10 rotary switch that can toggle between multiple power states. Offers broader control logic while maintaining compatibility with this board when wired for single-position output.
Conditional Compatibility with Subsea M10 Pressure Trigger Switch
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The MOS Low-Side Switch Board can be used in conjunction with the Subsea M10 Pressure Trigger Switch for automatic depth-based control. Once the switch reaches its rated trigger depth (e.g., 20 m for the 2 Bar / 0.2 MPa version), it conducts continuously—allowing the MOS board to switch power to connected devices such as lights, pumps, or relays.
Note: The Pressure Trigger Switch acts as a momentary switch above its trigger depth. Although manual pressing can temporarily conduct, it does not latch. Therefore, this switch is not suitable as a manual override for the MOS board.
SHIPPING LIST
TECHNICAL SPECIFICATIONS
| Spec | MOS Low-side Switch |
|---|---|
| Supply Voltage | 13–28VDC |
| Rated Current Options | 15A, 30A, 120A |
| MOS On-Resistance | 15A: 0.58 mΩ; 30A: 0.28 mΩ; 120A: 0.07 mΩ |
| Static Current | 320 μA |
| Connector Type | 15A: XT30; 30A: XT60; 120A: M5 Screw Terminals |
| Fuse Type | 15A: MINI® Blade Fuse; 30A & 120A: MIDI® Bolt-Down Fuse |
| Dimensions (L×W) | 15A: 35×30 mm; 30A: 42×52 mm; 120A: 81.2×60 mm |
| Weight | 15A: 12.6 g; 30A: 48.4 g; 120A: 282.5 g |
| Shell Material (Optional) | 3D-printed PLA or PLA-CF (color random) |
| Switch Compatibility |
Compatible only with self-locking (latching) switches. Not compatible with momentary or self-resetting types. • Subsea M8 Rotary On/Off Switch • Subsea M10 Rotary On/Off Switch • Subsea M10 Rotary Waveband Switch • Subsea M10 Pressure Trigger Switch (Conditionally Compatible) Note: Pressure Trigger Switch functions only when submerged to its rated depth. Manual pressing above water or in shallow depths will not activate this board. |
| Thermal Management | No additional heat sink required; surface may become hot under high load |
| Recommended Wiring |
Use appropriately sized wires for each current rating to ensure safe and efficient operation: • 15A: 1.25 mm² (≈16 AWG) • 30A: 3.4 mm² (≈12 AWG) • 120A: 16 mm² (≈6 AWG) Always confirm ampacity based on insulation type, cable bundling, and length to avoid overheating or voltage drop. |
Dimension drawings and wiring illustrations are provided below for reference.
15A Dimension Drawing
30A Dimension Drawing
120A Dimension Drawing
15A Wiring Guide
30A Wiring Guide
120A Wiring Guide
What material is the shell made of?
The shell is produced using FDM 3D printing technology, utilizing PLA or PLA-CF materials.
What kinds of switches can be connected?
Self-locking switches, such as the Rotary On-Off Subsea Switch, can be connected. Ensure the switch's rated current exceeds 2mA.
What's the difference between the MOSFET switch and the Push Button Relay?
The MOSFET switch is a semiconductor device without mechanical contacts, resulting in no contact wear over time. It offers low on-resistance and high switching capacity compared to mechanical relays.
How should I choose a fuse?
Select fuses based on the load current. The switch supports MINI® Blade Fuses and MIDI® Bolt-Down fuses, which can be replaced according to different load requirements.
If the load is too high or short-circuited, causing the fuse to blow, will the MOS switch board be damaged?
No, a blown fuse due to overcurrent will not damage the MOS switch board. Replace the fuse only after confirming that the load is not short-circuited.
Can the input end be directly connected to a battery? Will it spark or damage the plug?
Yes, the battery can be connected directly. A spark may occur upon connection, but it will not damage the plug.
Can the output and input ends be plugged or unplugged while powered on? If the switch doesn't turn on, can I plug it in?
Do not plug or unplug the load end while powered on. Ensure the power is off before connecting or disconnecting the load.
The load is short-circuited, but the fuse hasn't blown. Why?
If the power supply current is lower than the fuse's breaking current, the fuse may not blow even during a short circuit.
If the fuse is burned and no replacement is available, can I temporarily use a wire?
Temporarily using a wire is possible, but it is not recommended due to safety concerns. Replace the fuse as soon as possible.
Do I need to disconnect both inputs and outputs when changing fuses, or just turn off the switch?
Ensure there is no short circuit at the load end before replacing the fuse. Turning off the switch is necessary.
Do I need to add my own heat sink? Is the working temperature high?
No additional heat sink is required. However, at high load currents, the circuit board's surface temperature can become high. Avoid touching the board to prevent burns.
3D Model Viewer
Note: The 3D model shown above is for reference purposes only. It may include components, accessories, or alternate sizes not included with the product. For simplicity, only a single representative size is typically displayed when multiple versions exist. Please refer to the product Shipping Guide for detailed information on included contents and size-specific differences.
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