Makersan
Back to pedals & levers
M-03 / Pedals & levers

MO 367

Bidirectional Rocker Pedal · Two-direction rocker pedal with independent springs per direction

MO 367 is a bidirectional rocker pedal for commercial and off-road vehicles, with two independent springs for each direction of travel. The contactless sensor and full redundant programmable outputs support standard, hydraulic and lock connection types.

Type
Bidirectional
Output
Dual analog / IVS
Sealing
IP6K9K
Makersan MO 367 bidirectional rocker pedal with heavy-duty metal case.
Quick highlights

Performance snapshot

Built for two-direction proportional command.

  • Bidirectional travel with independent springs per direction
  • Full redundant double programmable outputs
  • Travel angle options: 10° / 14°
  • Standard (S), hydraulic (H) and lock (L) connection types
  • Up to 1 million actuations
  • IP6K9K sealed sensor
Engineering views
Technical overview
Type
Bidirectional rocker
Measuring principle
Contactless
Travel angle
10° / 14°
Supply voltage
5V or 8-32V
Outputs
Dual analog (0-5V / PWM); Analog+IVS
Redundancy
Full redundant double programmable outputs
Connector
6-way Delphi Packard Metri-Pack 150
Ingress protection
IP6K9K (sensor)
Lifetime
Up to 1 million actuations
Operating temperature
-40°C … +85°C
Housing
Heavy-duty metal case
Module capabilities
  • Bidirectional rocker type
  • Suitable for different engine interfaces
  • Contactless measuring principle with full redundant double programmable outputs
  • Dual analog type: 0-5V / PWM
  • Analog+IVS type: analog with high-side or low-side switch
  • Two independent springs for every direction
  • Standard, hydraulic and lock connection types
Order Code
MO 367 -
X -
Option
X
Description
Connection typeSStandard
Connection typeHHydraulic
Connection typeLLock
Travel angle110°
Travel angle214°
Sensor programP009Dual analog (other programs on request)

Example: MO 367 - S - 1 - 1 - P009

Need a custom configuration?

Tell our engineering team about your machine platform, mounting envelope and required output. We'll propose the right hardware variant, rod/lever option and sensor program.

Contact Engineering