Technical

Main Features

  • Configuration parameters: for reduced power consumption.

The block diagram of the system is shown below.

../_images/system_diagram.png

Peripheral used for motor control:

  • PWM signal, optocupled inside the MC110

  • CAN bus

  • CAN FD bus

Peripheral use for ESC telemetry:

  • Serial RS-232

  • Serial RS-485

Any of the serial interfaces can be used to configure the internal variables of the MC110.

Mechanical Specifications

  • Weight: 2680 g

  • Maximum speed (for 1 pair of poles) 50,000 RPM (depending on the acquisition frequency)

  • Dimensions:

    ../_images/dimensions.png

    Dimensions in mm

Electrical Specifications

  • Power: up to 110 kW *

  • Input current: 250 A (as long as MC110 is not overheated by the input power)

  • PWM Frequency: 5-24 kHz

  • HV range: 100 V to 800 V

  • LV range: 8 V to 36 V

  • Minimum temperature: - 30 ºC

  • Maximum temperature: 150 ºC * (for IGBT module)

  • Regenerative brake: 60 A maximum

  • Sensorless mode: MC110 is able to operate with sensorless motors with maximum efficiency.

    The sensorless mode does not require a minimum speed to measure it and operate, as long as MC110 provides current to the motor phases (since the speed is measured with the current).

    Note

    Features with * depend on voltage and switching frequency. Read Maximum continuous current to know more.

  • Protections:

    • Protection agains in-rush current when turned on (at low and at high voltage sides)

    • Ground fault detection

    • Protection against overcurrent at power input and phases

  • Sensored motors:

    • Hall sensors

    • Digital incremental encoders

    • Analog SIN/COS

  • Reverse rotation: MC110 can operate in any direction of rotation without additional configuration.

  • Configurable:

    • Type of Observer

    • Programmable acceleration curve

    • Motor direction

    • Overvoltage threshold

    • Overcurrent threshold

    • Overtemperature threshold

    • Max. RPM (limit)

    • Braking force

    • Duty Cycle

  • Communications:

    • CAN Bus

    • CAN FD Bus

    • PWM optocupled inside the MC110

    • RS-232

    • RS-485

  • Redundant control

  • Telemetry:

    • Motor & ESC temperature

    • RPM

    • Input voltage

    • Input and output current

Maximum continuous current

The relationship between maximum input current and battery voltage depends on the switching frequency of the DC/AC converter. The following figure shows this relationship for different switching frequencies.

../_images/chart.png

Maximum Continuous Current vs Battery Voltage

Interfaces

HALL Inputs

Warning

The employed hall sensors must not exceed 5 V.

These inputs are used to add to the system a feedback in sensored mode (incremental type, usually magnetic).

The 3 Hall effect sensors must be placed at 120° (electrical degrees) from each other. The following is a simple formula for obtaining the mechanical degrees of separation when installing the sensors:

\[Electrical \ Degrees = Pole \ Pairs \times Mechanical \ Degrees\]

So the sensors must be placed one of each other at:

\[Mechanical \ Degrees \ (º) = \frac{120º}{Pole \ Pairs}\]

For example, for 10 pole pairs:

\[\frac{120º}{Pole \ Pairs} = \frac{120º}{10} = 12 º\]
../_images/poles.png

Example diagram

Tip

The arc length between sensors can be calculated as follows:

\[Arc \ Length = \frac{2 \times \pi \times Motor \ Radius \times Mechanical \ Degrees \ (º)}{360}\]

FAN_PWM

This Open-Drain output is used to control an external fan if needed. External power for the fan and an aditional pull-up resistor is required. Maximum voltage in this signal is 60 V and 360 mA for maximum sink current. It is important that the GND connection of this supply is the same as the GND connection for the supply of the control group (user connector).

Opto PWM Input

This input is an optocoupled control digital signal.

The input is interpreted as 0-100 % of the maximum RPM. An initial dead band can be configured to prevent the engine from starting.

Electrical Characteristics

Type

Specification

Input voltage range

0-5 V

Minimum input current

2.5 mA

Pulse length

1-2 ms

Frequency

40-250 Hz

NTC/PTC Input (External Temperature Sensing)

A PTC or NTC can be integrated.

Warning

The PTC or NTC must not exceed 5 V.

The PTC/NTC should be connected on the low side of an external resistor divider. This is the configuration by default. A high side connection can be used too, but a custom modification is needed.

The isolated Voltage_ref output should be left floating in default mode. The iso_ground is the return path of the NTC/PTC sensor.

SIN/COS_SIGNAL

These signals are those dedicated to the SIN / COS type analog sensor.

Warning

SIN/COS signals must not exceed 5 V.

RS-232

Single ended serial type protocol:

Electrical Characteristics

Type

Specification

ESD Protection

±15 kV (HBM)

Requirements

TIA/EIA-232-F and ITU v.28

Speed

Max. 250 kbit/s

Input Voltage

-25 to 25 V

Output Voltage

-13.2 to 13.2 V

RS-485

Differential serial type protocol:

Electrical Characteristics

Type

Specification

ESD Protection

±15 kV (HBM)

Requirements

TIA/EIA-485-A

Speed

Max. 25 Mbit/s

Input Voltage(D)

-0.5 to 7 V

Output Voltage (D)

1.5 to 2.4 V

Isolated CAN FD and Isolated CAN 2.0

Differential communication protocol with flexible data rate:

Electrical Characteristics

Type

Specification

ESD Protection

±4 kV (HBM)

Requirements

ISO11898-2

Speed

Max. 5 Mbit/s

Max CAN 2.0 Speed

1 Mbit/s

Input Voltage(D)

-12 to 12 V

CAN H Voltage

2.75 to 4.5 V

CAN L Voltage

0.5 to 2.25 V

Mating connectors

../_images/VERONTEMC110CONNECTIONS.png

Power connectors:

Number

Name

Recommended connector

1

HV negative

Tubular cable lugs of Würth with M6.

The recommended reference depends on wire section:

  • 10 mm²: 5580610

  • 16 mm²: 5580616

  • 25 mm²: 5580625

  • 35 mm²: 5580635

2

HV positive

3

Phase U

4

Phase V

5

Phase W

Electronic connectors:

Number

Name

Mating connector

Pin

Size

6

Sensor connector

Molex: 90142-0012

Molex: 90119-2109

22AWG to 24AWG

7

User connector

Molex: 90142-0030