A10HA1E
Cytech
Product Description
Thermoelectric cooler is mainly made of Semiconductor refrigeration piece、Heat sinks, fans, panel. TEC is small, light, easy to install, No refrigerant, no pollution to the environment, Cooling and heating functions can interchangeable. Can be connect an external emergency fan and hydrogen fan, can remote monitoring though RS485 .
When the DC flow through the circuit, which is formed by different conductor connection in nodes produces endothermic or exothermic phenomenon,this phenomenon called peltier effect .
Thermoelectric cooler use in this peltier effect . When Thermoelectric cooler power on , one side cooling through the fan and the heat sink to absorb heat, contained in the other side of the heating through the fan and heat sink get heat away.
Standard No. | Standard Name |
GB/T2423.38-1990 | Basic environmental test procedures _ test electrical and electronic products R:Test method for water |
GB/T 2423.1-2001 | Electrical and electronic products environmental test Part 2: test method for testing A: low temperature |
GB/T 2423.2-2001 | Electrical and electronic products environmental test Part 2: test method for testing B: high temperature |
GB4208-2008 | Enclosure protection class |
GJB150-86 | Military equipment environment test method |
Name | TEC |
Model | FF-200W-48C |
Mounting Method | Semi-embedded Mounting |
Power Supply | 48V DC |
Cooling capacity | 100W |
Power capacity | 95W |
Max Noise Level | 60dB(A) |
IP Grade | IP55 |
Net Weight | 3.7kg |
Dimensions | 133*250*159 (mm,W*H*D) |
Options
Model | Voltage | Nominal cooling capacity(W) (L35/L35) | Nominal cooling capacity(Btu/hr) (L35/L35) | Power consumption(W)(L35/L35) | IP Grade | OPERATING TEMP ℃ |
A10HA1E | DC12V,DC24V, DC48V | 100 | 340 | 95 | IP55,NEMA 4, NEMA 4X | -10℃~+70℃ |
A20HA1E | DC12V,DC24V,DC48V | 680 | 230 | IP55,NEMA 4, NEMA 4X | -10℃~+70℃ | |
A30HA1E | DC24V,DC48V | 1020 | 410 | IP55,NEMA 4, NEMA 4X | -10℃~+70℃ | |
A50HA1E | DC48V | 1700 | 700 | IP55,NEMA 4, NEMA 4X | -10℃~+70℃ | |
A70HA1E | DC48V | 700 | 2390 | 1100 | IP55,NEMA 4, NEMA 4X | -10℃~+70℃ |
Function
Menu code selection:
Symbols | Detail | Setting range | Factory settings | Unit |
F0 | heating hysteresis | 0~15℃ | 1 | ℃ |
F1 | cooling hysteresis | 0~15℃ | 1 | ℃ |
F2 | Temperature limit setting | -9~F3 | 15 | ℃ |
F3 | The upper temperature limit is set | F2~99 | 30 | ℃ |
F4 | Temperature correction | -7~+7 | 0 | ℃ |
F5 | Delay start | 0~7 | 0 | Min |
F6 | Low temperature alarm output | -9~F6 | -9 | ℃ |
F7 | High temperature alarm output | F7~99 | 70 | ℃ |
Press RST button to set the thermostat, press "▲" or "▼" for each parameter up or down, SET lights,
press the SET key to exit the set state.
◆ interval constant temperature control function:
1: when the value is more than F3 to measure the temperature set value, start the refrigeration output;
when the measured temperature ≤ F3 setting -F1 settings, close the output.
2: when the measured temperature value <F2 the set value, start the heating output; when the measured
temperature ≥ F2 setting +F0 settings, close the output.
◆ interval the thermostat setting:
Press the RST key, enter the menu display, with "*" or "▼" key to screen appears "F2" or "F3" code,
press "SET" button to display the temperature setting value, then press the "*" or "▼" button to adjust
the parameters
"F2" indicates the lowest temperature interval of temperature, "F3" represents the highest temperature
interval of temperature.
◆ temperature correction function:
When the measured temperature and the standard temperature deviation, temperature correction function,
the machine and the measured values of the standard temperature, temperature = corrected before
correction temperature value + correction value (correction value can be positive, negative and 0).
◆ return difference function:
To define the maximum distance between the machine, the machine stops spaced between the minimum is
0 ℃, the maximum is 15 ℃.
◆ return difference set:
Press the RST key, enter the menu display, with "*" or "▼" key to screen appears "F0" or "F1" code,
press "RST" key to display setting value of return difference, then press the "*" or "▼" button to
adjust the parameters.
"F0" said heating return difference, "F1" said refrigeration return difference
◆ temperature calibration setting:
Press the RST key, enter the menu display, with "*" or "▼" key to screen appears "F4" code ", according
to the temperature calibration setting value RST" key to display, then press the "*" or "▼" button
to adjust the parameters.
◆ high temperature alarm function:
If the measured temperature >F7 setting the thermostat alarm, display alternate display H and current
temperature alarm press any key to stop the alarm.
◆ high temperature alarm set:
Press the RST key, enter the menu display, with "*" or "▼" key to screen appears "F7" code, press
"RST" button to display the temperature alarm set value, then press the "*" or "▼" button to adjust
the parameters
◆ temperature alarm function:
If the measured temperature <F6 setting the thermostat alarm, display alternate display L and current
temperature alarm press any key to stop the alarm.
The low temperature alarm set:
Press the RST key, enter the menu display, with "*" or "▼" key to screen appears "F6" code, press
"RST" button to display the temperature alarm set value, then press the "*" or "▼" button to adjust
the parameters.
2. Note
◆ fault tips:
1, when the sensor is disconnected, display, and send out alarm sound, and off chip cooling and fan
2, when the sensor detects a temperature below -9.9 degrees, the display shows LLL
3, when the sensor detects a temperature higher than 99.9 degrees, the display shows HHH
◆ use matters needing attention:
1, must not exceed the load output contact capacity, otherwise it may cause damage to the machine and
cause fire.
2, the various connecting wires and wiring terminal contact pressure is good, otherwise, will cause
the machine reliability reduced.
3, the connection must be separate power supply, relay, sensor, otherwise it will damage the machine.
Advantages
Cytech’s Industrial Peltier Thermoelectric Air Conditioner epitomizes advanced solid-state thermal management, uniting cutting-edge semiconductor heat-pump physics with industrial-grade robustness. As a thermoelectric air conditioner and thermoelectric enclosure cooler, it delivers unparalleled precision, reliability, and eco-conscious performance. Below is an optimized, deeply technical exploration of its core advantages:
High-Efficiency Peltier Modules: Custom-fabricated bismuth telluride couples with optimized leg aspect ratios to minimize internal Joule heating, achieving a peak ΔT of >70 °C and a COP >0.8 under nominal loads.
Multi-Stage Stacking: Scalable cascaded stages amplify temperature differentials for extreme-environment applications, while bespoke thermal interposers ensure uniform heat flux distribution.
Precision PID Regulation: Embedded 32-bit microcontroller executes adaptive PID algorithms with auto-tuning, sustaining ±0.3 °C stability against dynamic thermal loads.
Dynamic PWM Drive: Ultra-fast pulse-width modulation tailors current to real-time enclosure heat ingress, reducing average power consumption by up to 45 % versus fixed-drive systems.
Sensor Fusion: Supports NTC, PTC, and platinum RTD transducers for high-accuracy temperature feedback; optional infrared pyrometry enables non-contact hotspot detection.
Green Solid-State Operation: Entirely free of HFCs, HCFCs, or CFCs—eliminating ozone-depleting potential (ODP) and global-warming potential (GWP).
Sustainability Compliance: Meets RoHS, REACH, and EPA SNAP standards, ensuring zero environmental liability across product lifecycle.
Low-Profile Enclosure: Depth ≤ 45 mm allows seamless retrofit into legacy cut-outs; mounting kits accommodate DIN-rail, 19″ rack, and wall installations.
IP-Certified Durability: Available in IP55 (standard) or IP65 (wash-down) housings, featuring silicone gasketing and marine-grade stainless-steel fasteners for dust- and water-tight integrity.
Thermal Interface Engineering: Gold-plated cold-plates and anodized aluminum heatsinks maintain Rₜₕ < 0.35 K/W, optimizing heat rejection in constrained airflow scenarios.
Instantaneous ΔT Response: Delivers full cooling or heating within 20–30 s of activation, crucial for applications demanding real-time temperature stabilization.
Reversible Heat-Pump Function: Switchable polarity enables active heating up to +60 °C above ambient, providing freeze-protection without external resistive heaters.
Acoustic Performance: < 22 dBA at 1 m due to absence of reciprocating compressors; ideal for noise-sensitive environments like medical labs, broadcast suites, and executive offices.
Zero Micro-Vibration: Eliminates mechanical oscillations—preventing microphonic artifacts in precision instrumentation and mitigating structural fatigue.
Solid-State Durability: No moving parts or refrigerant circuits; MTBF > 120 000 hours under continuous industrial operation.
EMC/EMI Robustness: Certified to EN 55022 Class B and EN 61000-6-2 for immunity to industrial electrical noise and radiated emissions.
By synergizing high-performance Industrial Peltier Cooler modules, intelligent drive electronics, and IP-graded mechanical design, Cytech’s Peltier Thermoelectric Air Conditioner establishes a new benchmark in thermoelectric enclosure cooling—delivering precise, sustainable, and ultra-reliable thermal control for mission-critical applications.
Application
Thermoelectric cooler are extensively used for cooling electronic components. From high-performance CPU in computers to intricate microprocessors, TEC coolers help maintain optimal operating temperatures. This ensures the longevity and reliability of electronic devices, preventing overheating-related issues.
In the medical field, Thermoelectric cooler contribute to temperature control in various equipment. Refrigerated storage units for medications, temperature-sensitive diagnostic equipment, and even cooling systems for laser medical devices benefit from the precise temperature regulation provided by TEC coolers.
In aerospace applications, Thermoelectric cooler are employed for thermal management. Electronic systems in spacecraft and satellites often face extreme temperature variations. TEC coolers play a vital role in stabilizing and regulating temperatures to ensure the proper functioning of sensitive instruments.
Thermoelectric cooler contribute to climate control in vehicles. They play a role in regulating the temperature inside car seats, ensuring passenger comfort. TEC-based cooling systems are also used in refrigerated trucks to transport temperature-sensitive goods.
In laboratories and research facilities, Thermoelectric cooler are integral for maintaining precise temperatures. They are employed in equipment such as spectrophotometers, chromatography systems, and DNA sequencers, where temperature stability is critical for accurate results.
Thermoelectric cooler aid in maintaining the efficiency of photovoltaic solar panels. By controlling the temperature of solar cells, TEC coolers contribute to optimizing the conversion of sunlight into electricity, enhancing the overall performance of solar energy systems.
In the telecommunications industry, Thermoelectric cooler are used to regulate the temperature of network equipment. Cooling components such as transceivers and amplifiers ensures stable operation and prevents overheating, contributing to the reliability of communication systems.
