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Trinamic TMCM-160, Manual

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TMCM-160 Manual (V1.11 / August 8th, 2007) 

 

 

Copyright © 2006, TRINAMIC Motion Control GmbH & Co. KG 

 

4 Operational / Limiting Ratings 

The operational ratings show the intended / the characteristic range for the values and should be 
used as design values. An operation within the limiting values is possible, but shall not be used for 
extended periods, because the unit life time may be shortened. In no case shall the limiting values be 
exceeded. 
 

Symbol 

Parameter 

Min 

Typ 

Max 

Unit 

V

S

 

Power supply voltage for operation 

9.0*)  14 - 36 

40.0 

I

S

 

Power supply current 

0.04 

 

I

MOT

 A 

P

ID

 

Module idle power consumption 

 

1.2 

 

V

5

 

5 Volt (+-8%) output external load (hall sensors plus 
other load) 

  30 

mA 

V

5A

 

5 Volt (+-8%) analog reference output external load 

 

 

0.5 

mA 

I

MC

 

Continuous Motor current at V

MF

 

 

0 – 3 

I

MP

 

Short time Motor current in acceleration periods 
It is not recommended to set motor current above 6A! 

 

0 – 6 

8.5 

I

MPP

 

Peak coil output current for 100ms 

 

 

20 

V

I

 

Logic input voltage on digital / hall sensor inputs 

-0.3 

 

V

CC

0.3 

V

O

 

Logic output current on digital outputs (5V CMOS output) 

 

 

10 

mA 

V

IA

 

Analog input voltage 

-24 

0 – 10 

24 

f

CHOP

 

Chopper frequency 

 

20 

 

kHz 

E

x

 

Exactness of voltage and current measurement 

-8 

 

+8 

T

SL 

Motor output slope (U, V, W) 

 

100 

 

ns 

T

O

 

Environment temperature operating -25 

 

+70 

°C 

T

OF

 

Environment temperature for operation at full specified 
current (air flow might required, depending upon motor 
/ voltage) 

-25  +60 

°C 

T

board

 

Temperature of the module, as measured by the 
integrated sensor. 

 <100 

125 

°C 

Table 4.1: Operational / Limiting Ratings 

*) At supply voltages below 12V, maximum motor current linearly decreases down to about 0.5A at 
9V. To be sure to be outside this area when using the EVALboard, use at least 13V supply voltage, 
due to voltage drop in the reverse polarity protection. 
 

4.1  Power supply requirements 

The power supply should be designed in a way, that it supplies the nominal motor voltage at the 
desired maximum motor current. In no case shall the supply value exceed the upper / lower voltage 
limit. To be able to cope with voltage which might be fed back by the motor, the supply should 
provide a sufficient output capacitor, additionally a 39V suppressor (zener-)diode may be used. 
 

Summary of Contents for TMCM-160

Page 1: ...60 Hardware BLDC motor controller driver module 5A 36V with RS232 RS485 and analog interface V1 11 August 8th 2007 Trinamic Motion Control GmbH Co KG Sternstra e 67 D 20357 Hamburg Germany www trinami...

Page 2: ...le motor current limit 10 5 8 Parameterizing the PID velocity regulator 11 5 9 Parameterizing the positioning algorithm 12 5 10 Restoring factory default settings 12 6 Revision History 13 6 1 Document...

Page 3: ...ions with automatic ramp generation Remote controlled RS232 or RS485 or stand alone operation 0 10V signal Plug On module or panel mount operation Very compact multi axis drives integrate several modu...

Page 4: ...uipment intended to support or sustain life and whose failure to perform when properly used in accordance with instructions provided can be reasonably expected to result in personal injury or death TR...

Page 5: ...7 9 8 10 11 13 12 14 15 17 16 18 19 21 20 22 23 25 24 26 U U V V W W VS VS GND GND GND 5V H3 H2 H1 GND GND GND VS VS W W V V U U Figure 3 1 Pinning CAUTION Since the two connectors of the TMCM 160 ar...

Page 6: ...FF Emergency stop Tie this pin to GND to stop the motor same as Motor Off switch on PCB The motor can be restarted via the interface or by cycling the power supply 8 LED_TEMP 5V TTL output Toggling wi...

Page 7: ...uded since these are just for evaluation purpose Figure 3 2 Dimensions 3 3 Connectors Hall sensor JST1 5mm type S5B ZR SM2 TF only on EvalBoard Board Plug on connectors 2 54 mm two row Header 3 4 Appl...

Page 8: ...0 3 VCC 0 3 V VO Logic output current on digital outputs 5V CMOS output 10 mA VIA Analog input voltage 24 0 10 24 V fCHOP Chopper frequency 20 kHz Ex Exactness of voltage and current measurement 8 8 T...

Page 9: ...ntrol flag 1 Power on velocity v Table 5 1 Options for stand alone operation In all modes the motor torque is limit by the maximum current setting The polarity of the DIR pin can be inversed by the di...

Page 10: ...le the TMCM 160 calculates a reduced PWM value for the next chopper cycle New values are calculated 100 times a second The response time of the current regulation can be set using the parameter curren...

Page 11: ...on loop delay parameter tPIDDELAY is the resulting delay between two PID calculations The PID parameters are divisors e g use a higher value to get less influence from the parameter To parameterize fo...

Page 12: ...pplication 5 Set MVP_target_reached_distance to the value which gives a stop as near as possible to the target position velocity position target position set via MVP max_pos_speed min_pos_speed MVP_ta...

Page 13: ...d RS485 Tacho output Added baud rate switching Added RS485 interface Fixed current regulation bug GPIO1 provides for a hall sensor derived tacho signal Analog control input now uses 10 bit resolution...

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