RoboteQ SDC2130, SDC2150 User Manual

SDC2130/SDC2150 Motor Controller Datasheet 1

SDC2130/SDC2150

2x20A or 1x40A
Compact
High Performance
Dual Channel
Forward/Reverse
Brushed DC Motor
Controller with USB

Roboteq’s SDC2130 (30V) / SDC2150 (50V) controller is
designed to convert commands received from an RC radio,
Analog Joystick, wireless modem, PC (via RS232 or USB) or
microcomputer into high voltage and high current output for
driving one or two DC motors. Fitting a very compact 70x70mm
board, and designed for maximal ease-of-use, it is delivered
with all necessary cables and hardware, and is ready to use in
minutes.

The controller features a high-performance 32-bit microcom­puter and quadrature encoder inputs to perform advanced
motion control algorithms in Open Loop or Close Loop (Speed
or Position) modes. The SDC2130/SDC2150 features several
Analog, Pulse and Digital I/Os which can be remapped as com­mand or feedback inputs, limit switches, or many other func­tions.

For mobile robot applications, the controller’s two motor chan­nels can either be operated independently or mixed to set the
direction and rotation of a vehicle by coordinating the motion of
each motor. Numerous safety features are incorporated into the
controller to ensure reliable and safe operation. The controller's
operation can be extensively automated and customized using
Basic Language user programs. The controller can be repro­grammed in the field with the latest features by downloading
new operating software from Roboteq.

Applications

• Industrial Automation

• Tracking, Pan & Tilt systems

• Small to mid-size Terrestrial and Underwater Robotic

Vehicles

• Automatic Guided Vehicles

• Automated machines

• Telepresence Systems

• Animatronics

Features List

• USB, RS232, 0-5V Analog, or Pulse (RC radio) command

modes

• Auto switch between USB, RS232 (12V levels or non-

inverted TTL levels), Analog, or Pulse based on user­defined priority

• Input for direct connection to Spektrum digital RC radios

• Built-in high-power power drivers for two brushed DC

motors at up to 20A output per channel

• Available in single channel version up to 40A

• Full forward & reverse control on each channel. Four quad-

rant operation. Supports regeneration

• Operates from a single 10V-35V (SDC2130) or 10V-50V

(SDC2150) power source

• Programmable current limit for each channel up to 2x20A

or 1x40A for protecting controller, motors, wiring and bat­tery

• Up to 4 Analog Inputs for use as command and/or feed-

back

• Up to 5 Pulse Length, Duty Cycle or Frequency Inputs for

use as command and/or feedback

• Up to 6 Digital Inputs for use as Deadman Switch, Limit

Switch, Emergency stop or user inputs

• Dual Quadrature Encoder inputs with 32-bit counters

• 2 general purpose 24V, 1A output for brake release or

accessories

• Selectable min, max, center and deadband in Pulse and

Analog modes

• Selectable exponentiation factors for each command

inputs

• Trigger action if Analog, Pulse or Encoder capture are out-

side user selectable range (soft limit switches)

• Open loop or closed loop speed control operation

2 SDC2130/SDC2150 Motor Controller Datasheet Version 1.2. May 5, 2011

• Closed loop position control with analog or pulse/fre-

quency feedback

• Precise speed and position control when Encoder feed-

back is used

• PID control loop with separate gains for each channel

• Optional Mixed control (sum and difference) for tank-like

steering

• Configurable Data Logging of operating parameters on

RS232 Output for telemetry or analysis

• Built-in Battery Voltage and Temperature sensors

• Power Control header for turning On or Off the controller

from external microcomputer or switch

• No consumption by output stage when motors stopped

• Regulated 5V output for powering Encoders, RC radio,

RF Modem or microcomputer

• Separate Programmable acceleration and deceleration

for each motor

• Separate Programmable maximum forward and reverse

power

• Direct connection to multi-channel Spektrum-brand

2.4GHz RC receiver

• Ultra-efficient 10 mOhm ON resistance MOSFETs

• Orderable as single channel version up to 40A

• Stall detection and selectable triggered action if Amps is

outside user-selected range

• 10 to 32kHz user programmable Pulse Width Modulation

(PWM) output

• Overvoltage and Undervoltage protection

• Programmable Watchdog for automatic motor shutdown

in case of command loss

• Overtemperature protection

• Diagnostic LED

• Efficient heat sinking using conduction bottom plate.

Operates without a fan in most applications

• Power wiring via terminal strip wires up to AWG12

• 2.76” (70mm) L, 2.76” W (70mm), 0.78” (20mm) H

• -40o to +85o C operating environment

• 3.5oz (100g)

• Easy configuration, tuning and monitory using provided

PC utility

• Field upgradeable software for installing latest features

via the internet

Orderable Product References

TABLE 1.

Reference Number of Channels Amps/Channel Volts

SDC2130 220 30

SDC2150 220 50

SDC2130S 140 30

SDC2150S 140 50

SDC2130/SDC2150 Motor Controller Datasheet 3

Power Wires Identifications and Connection

Power Wires Identifications and Connection

Power connections are made through a 6 position screw terminal.

The diagram below shows how to wire the dual-channel controller and how to turn power On and Off.

M1+ M1- VMot GND M2+ M2-

GND

PwrCtrl

Spektrum
Radio Connecto

r

50V

Jumper

USB Connector IO Connector

Battery and Motor Connections

18

915

P1

J1

P3

P4

J2

P2

FIGURE 8. Controller layout

Motor 1

VMot

PwrCtrl

SW1 Main
On/Off Switch 1A

F2
1A

Diode
>10A

Resistor
1K, 0.5W

+-

SW2
Emergency
Cut-off Switch

F1

M1+

M1-

M2+

M2-

I/O Connector

Ground

Ground

Motor 2

Main
Battery

Backup
Battery

Note 5
Do not Connect!

Note 1

Note 4

Note 3 Note 2

FIGURE 9. Powering the controller. Thick lines identify MANDATORY connections

4 SDC2130/SDC2150 Motor Controller Datasheet Version 1.2. May 5, 2011

Important Warning

Carefully follow the wiring Instructions provided in the Read Me First sheet that comes with the control­ler, or in the Power Connection section of the User Manual. The information on this datasheet is only a
summary.

Mandatory Connections

It is imperative that the controller is connected as shown in the above diagram in order to ensure a safe and trou­ble-free operation. All connections shown as thick black lines line are mandatory. The controller must be powered
On/Off using switch SW1on the Power Control Header.

The battery must be connected in permanence to the controller’s VMot power via an input emergency switch
SW2 as additional safety measure.

Precautions and Optional Connections

Note1: Optional backup battery to ensure motor operation with weak or discharged battery.

Note2: Use precharge 1K Resistor to prevent switch arcing.

Note3: Insert a high-current diode to ensure a return path to the battery during regeneration in case the fuse is
blown.

Note4: Optionally ground the VBat wires when the controller is Off if there is any concern that the motors could
be made to spin and generate voltage in excess of 35V.

Note5: Beware not to create a path from the ground pins on the I/O connector and the battery’s minus terminal.

Single Channel Wiring

The single channel version of the controller (SDC2130S and SDC2150S) require that the output be parallel and
that the load be wired as shown in the diagram below.

Important Warning

This wiring is only possible on controllers fitted with the Single Channel version of the firmware. Dual channel
controllers will be damaged if wired as single channel. Verify that the PC utility identifies the controller as
SDC2130S or SDC2150S before applying power to the load.

M

M1+ M1- M2+ M2-

FIGURE 10. SDC2130S and SDC2150S wiring diagram

SDC2130/SDC2150 Motor Controller Datasheet 5

Sensor and Commands Connection

Sensor and Commands Connection

Connection to RC Radio, Microcomputer, Joystick and other low current sensors and actuators is done via the 15
connector located in front of the board. The functions of many pins vary depending on user configuration. Pin
assignment is found in the table below.

Default I/O Configuration

The controller can be configured so that practically any Digital, Analog and RC pin can be used for any purpose.
The controller’s factory default configuration provides an assignment that is suitable for most applications. The
figure below shows how to wire the controller to two analog potentiometers, an RC radio, and the RS232 port. It
also shows how to connect the two outputs to motor brake solenoids. You may omit any connection that is not
required in your application. The controller automatically arbitrates the command priorities depending on the pres­ence of a valid command signal in the following order: 1-RS232, 2-RC Pulse, 3-Analog. If needed, use the Robo­run+ PC Utility to change the pin assignments and the command priority order.

TABLE 4.

Connector Pin Power Dout Com RC Ana Dinput Enc Default Config

1 DOUT1 Unused

9 DOUT2 Unused

2 TxOut RS232Tx

10 RC5 ANA1 DIN5 ENC2A AnaCmd1

3RxIn RS232Rx

11 RC4 ANA4 DIN4 AnaCmd2

4 RC1 DIN1 ENC1A RCRadio1

12 RC3 ANA3 DIN3 Unused

5 GND

13 GND

6 TTL TxD / SCLI TTL Serial TxD

14 5VOut

7 TTL RxD / SDAI TTL Serial RxD

15 DIN6 ENC2B Unused

8 RC2 ANA2 DIN2 ENC1B RCRadio2

FIGURE 11. Connector pin locations

18

915

6 SDC2130/SDC2150 Motor Controller Datasheet Version 1.2. May 5, 2011

Status LED Flashing Patterns

After the controller is powered on, the Power LED will tun on, indicating that the controller is On. The Status LED
will be flashing at a 2 seconds interval. The flashing pattern provides operating or exception status information.

Additional status information may be obtained by monitoring the controller with the PC utility.

18

915

12

Pot 1

RS232
Ground
TxOut
RxIn

Motor 2

Motor 1

Pot 2

RC Ch1RC Ch2

FIGURE 12. Factory default pins assignment

RS232/USB Mode

Idle - Waiting for Command

RC Pulse Mode

Analog Mode

FIGURE 13. Normal Operation Flashing Patterns

Under or Over Voltage

Power Stage Off

Short Detected

Overheat

FIGURE 14. Exception or Fault Flashing Patterns

SDC2130/SDC2150 Motor Controller Datasheet 7

Electrical Specifications

Electrical Specifications

Absolute Maximum Values

The values in the table below should never be exceeded. Permanent damage to the controller may result.

Power Stage Electrical Specifications (at 25oC ambient)

TABLE 5.

Parameter Measure point Models Min Typ Max Units

Battery Leads Voltage Ground to VBat SDC2130 10 40 Volts

SDC2150 10 55 Volts

Reverse Voltage on Bat­tery Leads

Ground to VBat All -1 Volts

Motor Leads Voltage Ground to M1+, M1-,

M2+, M2-

SDC2130 35 Volts

SDC2150 55 Volts

Digital Output Voltage Ground to Output pins All 30 Volts

Analog and Digital Inputs
Volt age

Ground to any signal pin
on 25 & 9-pin connec­tors

All 15 Volts

RS232 I/O pins Voltage External voltage applied

to Rx/Tx pins

All 15 Volts

Board Temperature Board -40 85 oC

Humidity Board 100 (2) %

Note 1: Maximum regeneration voltage in normal operation. Never inject a DC voltage from a battery or other fixed source

Note 2: Non-condensing

TABLE 6.

Parameter Measure point Models Min Typ Max Units

Battery Leads Voltage Ground to VBat SDC2130(S) 10 (1) 35 Volts

SDC2150(S) 10 (1) 55 Volts

Motor Leads Voltage Ground to M1+, M1-,

M2+, M2-

SDC2130(S) 0 (1) 35(2) Volts

SDC2150(S) 0 (1) 55(2) Volts

Over Voltage protection
range

Ground to VBat SDC2130(S) 5 30 (4) 35 Volts

SDC2150(S) 5 50 (4) 55(2) Volts

Under Voltage protection
range

Ground to VBat SDC2130(S) 0 5 (4) 35 Volts

SDC2150(S) 0 5 (4) 55 Volts

Idle Current Consumption VBat or Pwr Ctrl wires All 50 75 (5) 100 mA

ON Resistance (Excluding
wire resistance)

VBat to M+, plus M- to
Ground at 100% power.
Per channel

SDC2130/50 20 mOhm

SDC2130S/50S 10 mOhm

Max Current per channel
for 30s

Ch1 or Ch2 Motor
current

SDC2130/50 20 (6) Amps

SDC2130S/50S 40 (6) Amps

Continuous Max Current
per channel

Ch1 or Ch2 Motor
current

SDC2130/50 15 (6)(7) Amps

SDC2130S/50S 30 (6)(7) Amps

8 SDC2130/SDC2150 Motor Controller Datasheet Version 1.2. May 5, 2011

Important Warning:

Beware that regenerative braking can create high voltage at the controller's power inputs. Use the con­troller only with batteries. See user manual for special precautions when using a power supply.

Command, I/O and Sensor Signals Specifications

Current Limit range Ch1 or Ch2 Motor

current

SDC2130/50 1 15(8) 20 Amps

SDC2130S/50S 1 30(8) 40 Amps

Stall Detection Amps
range

Ch1 or Ch2 Motor
current

SDC2130/50 1 15(8) 20 Amps

SDC2130S/50S 1 30(8) 40 Amps

Stall Detection timeout
range

Ch1 or Ch2 Motor cur­rent

All 1 500 (9) 65000 millisec-

onds

Motor Acceleration/Decel­eration range

Ch1 or Ch2 All 100 500 (10) 65000 millisec-

onds

Note 1: Negative voltage will cause a large surge current. Protection fuse needed if battery polarity inversion is possible

Note 2: Maximum regeneration voltage in normal operation. Never inject a DC voltage from a battery or other fixed source

Note 3: Minimum voltage must be present on VBat or Power Control wire

Note 4: Factory default value. Adjustable in 0.1V increments

Note 5: Current consumption is lower when higher voltage is applied to the controller’s VBat or PwrCtrl wires

Note 6: When single channel jumper is installed, current is doubled. Current must be balanced between channel to obtain max
current.

Note 7: Estimate. Limited by heatsink temperature. Current may be higher with better cooling

Note 8: Factory default value. Adjustable in 0.1A increments

Note 9: Factory default value. Time in ms that Stall current must be exceeded for detection

Note 10: Factory default value. Time in ms for power to go from 0 to 100%

TABLE 7.

Parameter Measure point Min Typ Max Units

Main 5V Output Voltage Ground to 5V pins on 4.6 4.75 4.9 Volts

5V Output Current 5V pins on RJ45 and DSub15 100 mA

Digital Output Voltage Ground to Output pins 30 Volts

Digital Output Current Output pins, sink current 1 Amps

Output On resistance Output pin to ground 0.75 1.5 Ohm

Output Short circuit threshold Output pin 1.05 1.4 1.75 Amps

Input Impedances AIN/DIN Input to Ground 53 kOhm

Digital Input 0 Level Ground to Input pins -1 1 Volts

Digital Input 1 Level Ground to Input pins 3 15 Volts

Analog Input Range Ground to Input pins 0 5.1 Volts

Analog Input Precision Ground to Input pins 0.5 %

Analog Input Resolution Ground to Input pins 1 mV

Pulse durations Pulse inputs 20000 10 us

Pulse repeat rate Pulse inputs 50 250 Hz

TABLE 6.

Parameter Measure point Models Min Typ Max Units

SDC2130/SDC2150 Motor Controller Datasheet 9

Electrical Specifications

Operating & Timing Specifications

Scripting

Thermal Specifications

Pulse Capture Resolution Pulse inputs 1 us

Frequency Capture Pulse inputs 100 10000 Hz

Encoder count Internal -2.147 2.147 10^9 Counts

Encoder frequency Encoder input pins 30000 or

1M(1)

Counts/s

Note1: Dual Channel controller max at 30Kcps. Single channel version max at 1Mcps

TABLE 8.

Parameter Measure Point Min Typ Max Units

Command Latency Command to output change 1 0.5 1 ms

PWM Frequency Ch1, Ch2 outputs 10 18 (1) 32 kHz

Closed Loop update rate Internal 1000 Hz

USB Rate USB pins 12 MBits/s

RS232 baud rate Rx & Tx pins 115200 (2) Bits/s

RS232 Watchdog timeout Rx pin 1 (3) 65000 ms

Note 1: May be adjusted with configuration program

Note 2: 115200, 8-bit, no parity, 1 stop bit, no flow control

Note 3: May be disabled with value 0

TABLE 9.

Parameter Measure Point Min Typ Max Units

Scripting Flash Memory Internal 8192 Bytes

Max Basic Language programs Internal 1000 1500 Lines

Integer Variables Internal 1024 Words (1)

Boolean Variables Internal 1024 Symbols

Execution Speed Internal 50 000 100 000 Lines/s

Note 1: 32-bit words

TABLE 10.

Parameter Measure Point Model Min Typ Max Units

Board Temperature PCB All -40 85 (1) oC

Thermal Protection range PCB All 70 80 (2) oC

Thermal resistance Power MOSFETs to

heats sink

All 2 oC/W

Note 1: Thermal protection will protect the controller power

Note 2: Max allowed power out starts lowering at minimum of range, down to 0 at max of range

TABLE 7.

Parameter Measure point Min Typ Max Units

10 SDC2130/SDC2150 Motor Controller Datasheet Version 1.2. May 5, 2011

The SDC2130/SDC1250 uses a conduction plate at the bottom of the board for heat extraction. For best results,
attach firmly with thermal compound paste against a metallic chassis so that heat transfers to the conduction
plate to the chassis. If no metallic surface is available, mount the controller on spacers so that forced or natural air
flow can go over the plate surface to remove heat.

Mechanical Specifications

TABLE 11.

Parameter Measure Point Min Typ Max Units

Weight Board 100 (3.5) g (oz.)

Power Wire Gauge Terminal strip 12 AWG

0.16"

16.26mm

4.1mm

0.64"

19mm

0.75"

FIGURE 15. SDC2130/SDC2150 front view and dimensions

39.1mm

1.54"

41.78mm

1.645"

14.73mm

0.58"

30mm

1.18"

62.2mm

2.45"
70mm

2.76"

13.2mm

0.519"

62.2mm

2.45"

70mm

2.76"

FIGURE 16. SDC2130/SDC2150 top view and dimensions