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22

WHY5640 TEMPERATURE CONTROLLER

TROUBLESHOOTING

PROBLEM

POTENTIAL CAUSES

SOLUTIONS

Temperature is decreasing 

when it should be 

increasing 

-OR-

 

Temperature is increasing 

when it should be 

decreasing

The TEC may be connected 

backwards to the WHY5640

The convention is that the red wire on the TEC  module connects to TEC+ 

(OUTB) and the black wire to TEC- (OUTA).  If your TEC is connected in 

this manner and the problem persists, the TEC module itself may be wired 

in reverse. Switch off power to the system, reverse the connections to the 

WHY5640, and then try again to operate the system.

TEC wiring polarity is dependent on the temperature sensor type (NTC vs. 

PTC). Verify that the polarity is correct for the sensor type you are using (see 

Table 8 on page 15

).

Temperature increases 

beyond setpoint and will not 

come down

The heatsink may be 

inadequately sized to dissipate 

the heat from the load and 

the TEC module, and now the 

system is in 

thermal runaway

Increase the size of the heatsink, add a fan to blow air over the heatsink, 

and/or reduce the ambient air temperature around the heatsink.

The TEC and heatsink are 

not adequately sized for the 

thermal load

The  heat  being  generated  by  the  load  may  be  too  great  for  the  TEC  to 

pump to the heatsink; a larger TEC may be needed.  Consult our Technical 

Note 

TN-TC01: Optimizing Thermoelectric Temperature Control Systems

 

and Application Note 

AN-TC09: Specifying Thermoelectric Coolers

.

Temperature does not 

stabilize very well at the 

setpoint

There may be poor thermal 

contact between components 

of the thermal load

Use thermal paste or washers between the load / TEC and the 

TEC / heatsink interfaces. Ensure the temperature sensor is in good thermal 

contact with the load. Contact the TEC manufacturer for recommended 

mounting methods.

Unit may be operating 

outside the ideal region of the 

temperature sensor

The sensor type and bias current should be selected to maximize sensitivity 

at  the  target  temperature.  Thermistors  provide  the  best  performance, 

particularly  for  applications  where  a  single  setpoint  temperature  must 

be  accurately  maintained.  For  example,  at  25ºC  a  10  kΩ  thermistor  has 

a sensitivity of 43 mV / ºC, whereas an RTD sensor has a sensitivity of 

4 mV / ºC.

Proportional control term may 

be set too high

Reduce the value of the proportional term. For more information, reference 

our Technical Note 

TN-TC01: Optimizing Thermoelectric Temperature 

Control Systems

.

Heatsink may not be sized 

correctly or may not have 

adequate airflow

Ambient  temperature  disturbances  can  pass  through  the  heatsink  and 

thermoelectric  and  affect  the  device  temperature  stability.  Choosing  a 

heatsink  with  a  larger  mass  and  lower  thermal  resistance  will  improve 

temperature stability. Adding a fan across the thermoelectric’s heatsink may 

be required.

Temperature does not 

reach the setpoint

Current driven to the TEC or 

heater may be insufficient

Increase the current limit – but DO NOT exceed the specifications of the 

TEC or heater.

The controller may not have 

sufficient compliance voltage 

to drive the TEC or heater

Increase the power supply voltage; be certain to verify that the controller is 

within the Safe Operating Area with Wavelength’s Temperature Controller 

SOA calculator: 

www.teamwavelength.com/support/design-tools/soa-tc-calculator/

The sensor may not have 

good contact with the heatsink 

and load

Use thermal paste or washers between the load / TEC and the 

TEC / heatsink interfaces. Contact the thermoelectric manufacturer for their 

recommended mounting methods.

The WHY5690 is not 

producing current

Improperly configured Enable 

ON / OFF Switch

Make sure that the Enable ON / OFF switch is set to the ON position.

The High Limit may be turned 

all the way counter clockwise 

(CCW)

Turn the Limit trimpot (LIMA or LIMB) clockwise to adjust the current limit.

Temperature is slow to 

stabilize and is not within 

the specifications with 

Resistive Heaters

Setpoint temperature is 

set close to the ambient 

temperature

Set the temperature at least 10ºC above ambient when using a resistive 

heater. A resistive heater is unable to precisely maintain temperatures near 

ambient.    Once  the  temperature  overshoots  the  setpoint,  the  controller 

turns off and relies on ambient temperature to cool the load.  If setting the 

temperature 10ºC or more above ambient is not possible, then choose a 

thermoelectric controller, which can alternately heat and cool the load to 

maintain a more precise setpoint temperature.

Summary of Contents for WHY5640

Page 1: ...Supply Low Cost 0 005 C Stability typical Linear PI Temperature Control High 2 2 A Output Current Control Above and Below Ambient Master Booster Operation Temperature Setpoint Heat and Cool Current L...

Page 2: ...the Wavelength Electronics website for the most accurate up to date and easy to use SOA calculator www teamwavelength com support design tools soa tc calculator Figure 1 shows the pin layout and descr...

Page 3: ...electric Cooler TEC or resistive heater connected directly to Pin 9 and Pin 13 on the controller as shown in Figure 3 NOTE Use a max of 5 V power supply with the test load shown Values shown can simul...

Page 4: ...on for the sensor RT and setpoint RS resistors 8 VDD Control Electronics Supply Input Power supply input for the WHY5640 s internal control electronics Supply range input for this pin is 5 to 26 VDC 9...

Page 5: ...Negative Temperature Coefficient thermistors OUTPUTA provides the heating current to the TEC for NTC sensors Connect OUTPUTA to the positive thermoelectric terminal when using Positive Temperature Co...

Page 6: ...o Pin 13 Full Temp Range IS 100 mA VS 0 7 VS 0 5 V Compliance Voltage Pin 9 to Pin 13 Full Temp Range IS 1 A VS 1 2 VS 1 0 V Compliance Voltage Pin 9 to Pin 13 Full Temp Range IS 2 A VS 1 6 VS 1 4 V P...

Page 7: ...operates directly with thermistors or RTD temperature sensors The fundamental operating principle is that the controller adjusts the TEC drive current in order to change the temperature of the sensor...

Page 8: ...UCTIONS STANDALONE NECESSARY EQUIPMENT The following equipment is required to configure the WHY5640 for basic operation WHY5640 Temperature Controller Thermistor or other temperature sensor Peltier ty...

Page 9: ...6 7 Use one of the sensors in the sections listed below SENSOR SELECTION Select a temperature sensor that is responsive around the desired operating temperature The temperature sensor should produce...

Page 10: ...th reference to Pin 1 AGND If the setpoint resistor RS is larger than the RTD resistance RRTD then the control loop will produce a heating current since the temperature sensed by the RTD is below cool...

Page 11: ...alues can be fine tuned experimentally Start with component values from Table 5 and operate the temperature controller system to determine if the load temperature settling time is satisfactory If it i...

Page 12: ...to Pin 1 AGND with a 1 5 k resistor when using RTDs LM335 type and AD590 type temperature sensors with a resistive heater Connect the resistive heater to Pins 9 and 13 to operate INCREASING OUTPUT CU...

Page 13: ...OLLERS 3 WHY5640 CONTROLLERS 4 WHY5640 CONTROLLERS 5 WHY5640 CONTROLLERS CURRENT LIMIT SET RESISTOR K RA RB 0 0 0 0 0 1 60 0 1 0 2 0 3 0 4 0 5 1 69 0 2 0 4 0 6 0 8 1 0 1 78 0 3 0 6 0 9 1 2 1 5 1 87 0...

Page 14: ...ll be operating within the internalheat dissipation Safe Operating Area SOA STEP 1 INSTALL WHY5640 ON THE WHY5690 WITH HEATSINK AND FAN Match up the notch Figure 12 on the WHY5640 with the silkscreen...

Page 15: ...lectronics to use the WHY5690 with other sensors or ranges STEP 5 ATTACHING THE VDD AND VS POWER SUPPLIES Ensure that the controller can be safely operated by checking the SOA Calculator website The V...

Page 16: ...board toggle switch The output is enabled when the green ON LED indicator is lit NOTE Before enabling the output make sure the RUN SET switch is set to the RUN position When enabled with this switch i...

Page 17: ...an wire configuration may be different than shown Fan can be rotated on the WHY so the location of the wires matches custom PCB WHY5640 and WHY5690 assembly instructions Figure 15 Match up the notch s...

Page 18: ...perating thermistor resistance RT For example for a 10 k thermistor operating at 25 C choose R1 to be 20 k NOTE Pin 9 OUTA is the heating current sink and Pin 13 OUTB is the cooling current sink Figur...

Page 19: ...S given a desired operating temperature measured in Celsius Rs 2R3 0 5 273 15 TCelsius 1mV K 10 Resistor R3 is a fixed resistance value that can be used to scale or adjust the setpoint resistor RS Sel...

Page 20: ...2 W 3 Heatsink and 3 5CFM fan required 2 W PWHY 9 W 4 Unsafe Operating Area PWHY Power internally dissipated in the WHY5640 1 2 3 4 5 10 15 20 25 0 0 0 5 1 0 1 5 2 0 Voltage Drop Across WHY VS VLOAD V...

Page 21: ...VS VDD VS S1 SPST LIM B LIM A SGL TURN SGL TURN CCW 0 AMPS CW 2 AMPS SGL TURN P GAIN I TERM OUT A OUT B SENSOR SENSOR VM1 VM2 VDD VS PGND COMMON OUTA OUTB LIMB LIMA VM2 VM1 S S R8 1k R7 1k CCW 0 AMPS...

Page 22: ...ple at 25 C a 10 k thermistor has a sensitivity of 43 mV C whereas an RTD sensor has a sensitivity of 4 mV C Proportional control term may be set too high Reduce the value of the proportional term For...

Page 23: ...40 UNC Airflow Direction MECHANICAL SPECIFICATIONS All Tolerances are 5 unless noted WEIGHTS WHY5640 0 6 oz WHS302 Heatsink 0 5 oz WXC303 4 Fan 0 3 oz PIN DIAMETER 0 020 PIN LENGTH 0 157 12 PIN MATERI...

Page 24: ...FAN COM VM2 VM1 CW 2 AMPS CCW 0 AMPS LIM B OUTPUT A SENSOR RUN RSET CW Decr CCW Incr sec I TERM PGND VS VDD OFF ENABLE ON WAVELENGTH ELECTRONICS For use with WHY5640 CW Decr CCW Incr P GAIN SET CCW D...

Page 25: ...BLUE PGND 2 ORANGE VS 3 RED VDD 4 BLACK COM 5 WHITE VM1 6 GREEN VM2 CABLING SPECIFICATIONS These cables are included with the WHY5690 Evaluation Board WTC3293 00101 INPUT CABLE MOLEX 43645 0400 MICRO...

Page 26: ...eering decompiling or disassembling this product NOTICE The information contained in this document is subject to change without notice Wavelength will not be liable for errors contained herein or for...

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