high temperature lcd display pricelist

2023-01-03 12:32:11

The T3E-6CT is general purpose input / ouput modules for building integrators, providing convenient termination for field devices and interfacing to your HVAC, lighting, temperature sensors, and other typical building automation applications.

Humidity&Temp transmitter with 2.0 meter cable & remote display, 87mm probe,BACnet, Modbus, RS485, Ethernet.Analog Output 0-5V,10V,20mA jumper select. With POE

Humidity&Temp transmitter with 2.0 meter cable & remote display, 87mm probe,BACnet, Modbus, RS485, Ethernet.Analog Output 0-5V,10V,20mA jumper select.

CO2 Duct Mount Sensor,Modbus, Ethernet, RS485,Analog Output 0-5V, 10V ,20mA jumper select. Without Temperature&Humidity sensors, with 150mm long pitot.

CO2 Duct Mount Sensor with Temperature&Humidity sensor included, Modbus，Ethernet,RS485, Analog Output 0-5V, 10V ,20mA jumper select, with 150mm long pitot.

Tstat8 Bacnet/Modbus thermostat with RS485, Color LCD, CO2, Humidity, 8UI, 2AO, 4DO@2A.(Details are here，https://bravocontrols.com/shop/tstat8-bacnet-thermostat/)

CO2 Duct Mount Sensor with Temperature&Humidity sensor included, Modbus，Ethernet,RS485, Analog Output 0-5V, 10V ,20mA jumper select, with 150mm long pitot.With POE

CO2 Duct Mount Sensor,Modbus, Ethernet, RS485,Analog Output 0-5V, 10V ,20mA jumper select. Without Temperature&Humidity sensors, with 150mm long pitot.With POE

CO2 Wall Mount Sensor, Modbus, Ethernet , RS485 Bacnet ,RS485 Analog Output 0-5V, 10V ,20mA jumper select.Without Temperature&Humidity sensors.Without POE

Bacnet Room Setpoint & Temp Display can be used in environment monitoring and controlling in industrial,commercial and other buildings,Modbus RS485/Bacnet MS/TP for direct digital reading on all models.

Duct mount temperature,Bacnet/Modbus over RS485, 0-10v 4-20ma output signal，Probe Lengeh 4” Stainless steel thermowell, 2″ Length, 1/2″ NPT tapered thread, fits 6mm dia probes.

Duct mount temperature,Bacnet/Modbus over RS485, 0-10v 4-20ma output signal，Probe Lengeh 6” Stainless steel thermowell, 4″ Length, 1/2″ NPT thread, fits 6mm dia probes.

4-pipe application, with ON-OFF switch and 3-speed fan switch, LCD display system mode and °C or °F temperature,heat-cool switched automatically,230VAC.

4-pipe application, with ON-OFF switch and 3-speed fan switch, LCD display system mode and °C or °F temperature,heat-cool switched automatically,24VAC.

4-pipe application, with ON-OFF switch and 3-speed fan switch, LCD display system mode and °C or °F temperature,heat-cool switched automatically,220VAC.

Terminal shorting bar,10 pin.Use these strips to run a common conductor through multiple terminals on any of the Temco T3 series controllers and I/O modules. The outer bar is covered in high temperature ABS. They’re available in 10 pin only version for now, you can cut them down for shorter runs or gang them up for longer runs.

Red Flashing Strobe Annunciator, 24VDC, Alarm current:<40mA, Operating temperature:-20°C~+60°C,Waterproof rating:IP65,Flash 60±3 times/min,Sound:8 different tones,Operating humidity:<95% RH

high temperature lcd display pricelist

A lot of consumers wonder how manufacturers determine the LCD display panel prices. After all, display solutions such as TFT LCDs and HMI touch screens do not always come cheap. And sometimes, a few products that can indeed be purchased for lower prices may come with several quality issues.

Hence, we’ve rounded up a list of factors that influence how to display modules such as TFTs, LCD, and touch screens are priced. You can also use these factors to evaluate to whom you should place your next orders for your display solutions.

LCD fluids are used in altering the light orientation passing through glass substrates. Hence, this causes the panel’s active pixels to darken. Different kinds of LCD panel fluids provide unique characteristics and change a panel’s viewing angle, temperature range, and display clarity.

TN fluid contains liquid crystal substances that allow light to pass through by twisting and untwisting at a 90-degree angle. This display technology is available in monochrome; that is, black characters against a gray background.

The viewing angle is limited in a panel containing TN fluid. This means that the text or image display becomes harder to read if you rotate the device away from its center. The display is also not that sharp compared to displays using other technologies.

Another characteristic of this fluid is that it works well even in colder temperatures. It’s because TN fluid has the quickest response time among the other LCD fluid types.

TN fluid is considered the cheapest LCD fluid type. However, this doesn’t mean that TN isn’t widely used. The display technology is greatly utilized in digital clocks, pagers, and gas pumps.

LCD modules with STN fluid enjoy a wider display angle, greater multiplexing, higher image contrast, and sharper response than devices using TN fluids. However, modules with STN fluids may have slower response times when used in lower temperatures due to the fluid freezing inside the device.

STN fluid falls under the moderately cheap LCD module price. Furthermore, STN fluid is widely utilized in several monochrome LCD devices such as POS machines, inexpensive feature phones, and informational screens of some devices.

The CSTN fluid technology takes away the monochrome finish of the typical STN fluid devices. Red, green, and blue filters are added to the fluid module to allow a colored display. New versions of CSTN often feature a viewing angle of 140 degrees and 100ms response times.

CSTN is a bit pricier than TN and STN fluids. But it’s a good choice if you need to display color images on your LCD device. In fact, a lot of color feature phones use CSTN as an alternative to the TFT displays, saving almost half the manufacturing costs.

A device using FSTN fluid has better viewing angles and can produce a sharp black-and-white coloration. It is a good choice for devices that need to display small yet easy-to-read images.

In terms of cost, the LCD display module price of a unit with FSTN is higher compared to TN and STN. But this is concerning the better visual quality that FSTN offers.

To cap off this part, the fluids used in a screen is a big factor in determining the overall LCD screen display panel price. As you can see, the four fluid types often used in LCD screens rise in costs with respect to the visual quality produced by each technology.

The temperature range in which LCD screen displays may work varies intensely. Some displays continue to work at optimal performance even when used in cold or hot outdoor temperatures. Lower-quality LCD panels may start having glitches at the slightest change of temperature and humidity. Hence, the temperature range may have a huge impact on the LCD display panel price as well.

In hot environments– The liquid crystals may begin to deteriorate, while the electrical components will start overheating and cause damage to the display screen performance.

Now, most LCD screen panels don’t experience such temperature extremes. In fact, a typical LCD TV can operate properly between approximately o°C and 32°C (32° – 90° F). Meanwhile, other screen modules (usually the industrial-grade ones) have unique capabilities to work in even more extreme ends of the temperature scale.

If you want to look for the most cost-effective type of LCD panel for your device, then you must consider the following standard LCD unit temperature types:

Normal temperature units work well in environments that have indoor temperatures at approximately 20-35°C (68-95°F). Some LCD modules may work well above up to 50°C (122°F). Such LCD modules can be used in daily settings by the typical consumer public.

LCD units under this type are made to withstand lower and higher temperature ranges. Extreme operating temperatures may range anywhere from -30°C to 85°C (-22-185°F). Most LCD modules with wide/extreme temperature capabilities are used in extremely cold areas such as Artic places and ski resorts, as well as humid and moisture-rich hot outdoor areas.

Generally, the LCD module price goes up if the entire display unit can withstand higher temperature ranges. Those who can operate under normal temperature ranges only are usually cheaper.

Hence, you must consider the places where you’ll be installing your LCD display devices. You can’t just use cheaper LCD modules for an industrial-grade display machine. Treat your LCD panel as an investment and select a panel that will yield better screen performance that’ll last several years for you and your business.

It’s an unspoken rule, but monochrome modules are generally cheaper than color-capable ones. However, color-capable display modules may also have cost variations depending on their display capabilities.

Color LCDs have three subpixels that hold red, blue, and green color filters. Each subpixel can have as much as 256 color shades, depending on the variation and control of the voltage applied to it.

Now, when you combine 256 shades of both red, blue, and green subpixels, color LCDs can display a color palette of up to 16.8 million colors. And all these are made possible by millions of transistors etched onto the glass modules.

Display size also plays a large role in an LCD device’s color capability. Smaller screens need fewer pixels and transistors since they have smaller display sizes. These screens are also less costly to make. Now, larger screens with high color resolution and huge display sizes require more transistors and pixels, justifying the higher prices of such monitors.

A touch screen display module is more costly than a non-touch monitor module. Touch capability is integrated into Human Machine Interface (HMI) modules and is generally used in kiosks, bank ATMs, hospital equipment, and similar devices in other industries.

Capacitive touch screens are the most common in the display industry today. This technology uses transparent conductors, insulators, and glass to create the panel. An electrostatic field change in the screen’s module happens when a human finger touches the screen surface. This ultimately creates signals that are sent to the touch screen controller for processing.

In general, capacitive touch screens are the most cost-effective choice for HMI machines. Since they are considered the gold standard of commercial touch screen technologies, they do come with a high price tag.

We’ve explained the following factors at length for both public consumers and business clients to understand the variations in TFT, LCD, and HMI touch screen prices.

Cheap doesn’t necessarily mean low-quality. Also, expensive options aren’t always a wise choice, either. You can maximize your buying or manufacturing options if you know how to compare LCD modules and panels depending on the specifications you truly need for your display machines and devices.

high temperature lcd display pricelist

The constant temperature ultrasonic extractor adopts a 20KHZ focusing high-power ultrasonic transducer, directly immersing the ultrasonic probe in a container for holding materials, the temperature sensor measures the temperature of the material, and puts the container containing the material into the constant temperature container, according to the user.

high temperature lcd display pricelist

The thermoMETER CT is a cost-effective temperature sensor that is integrated with a measuring range of 50 to 600°C and -40 to 900°C. This device possesses a spectral rate ranging from 8 to 14 µm and is characterized by ...

... 8-14 µm.It features a broad measuring range of -50 to 600°C.Built in with one of the smallest IR sensors in the world, it displays extremely short measuring times and is most efficient for fast processes.It also showcases ...

The thermoMETER CT is a non-contact IR-temperature sensor that is ideal for use in a variety of applications including processing of clays, furnaces, plastic, and textile. The unit has the capacity to measure temperatures ...

... easy-to-use pistol grip IR thermometer (sometimes called laser thermometers or non-contact thermometers) for making surface temperature measurements. It has a built-in laser to assist ...

HEITRONICS transfer radiation thermometers guarantee precise and long-term stable temperature measurements. They are used for calibrating cavity blackbodies and plate radiation sources, radiation thermometers ...

Modern intensity comparison pyrometer (successor of the disappearing filament pyrometer) for precise contol of temperatures ranging between 700 °C and 3500 °C. Target spots as small as 0.1 mm can be achieved. Mikro PV ...

... radiation thermometer. It is a handy type, yet high performance with focusable type, large distance factor and wide temperature range up to a high temperature.

IR-TE2 is water-proof handheld infrared thermometer with measuring temperature range -40 to 300°C. With its one button operation and laser pointer for measuring location checking, anybody can use the thermometer ...

The DTE is a battery powered LCD digital thermometer designed for use in a wide range of industrial and process applications. Similar to our standard DTB instrument, this latest development ...

... gun-type infrared thermometer with laser and backlight for easier targeting and operating. The good temperature range with real-time maximum reading makes the BT63 the ideal tool for various applications.

Infrared thermometer with a built-in contact thermocouple probe. This dual-sensor thermometer is very useful and requires both non-contact and contact temperature measurement. This model has food-grade ...

Robust, easy-to-use and compact, PN 6515 waterproof thermometer is dedicated to temperature control of perishable food and can be used within expertise campaigns in food industry.

... accuracy handheld temperature indicator with two platinum resistance thermometer inputs. The high precision makes the instrument particularly suitable as a portable reference thermometer to use alongside ...

... a mobile phone. It has a dual target laser for aiming at the measuring point. The emission factor can be adjusted. The LCD display is easy to read due to its size and the background lighting.

high temperature lcd display pricelist

OLED displays have higher contrast ratios (1 million : 1 static compared with 1,000 : 1 for LCD screens), deeper blacks and lower power consumption compared with LCD displays. They also have greater color accuracy. However, they are more expensive, and blue OLEDs have a shorter lifetime.

OLED displays offer a much better viewing angle. In contrast, viewing angle is limited with LCD displays. And even inside the supported viewing angle, the quality of the picture on an LCD screen is not consistent; it varies in brightness, contrast, saturation and hue by variations in posture of the viewer.

There are no geographical constraints with OLED screens. LCD screens, on the other hand, lose contrast in high temperature environments, and lose brightness and speed in low temperature environments.

Blue OLEDs degrade more rapidly than the materials that produce other colors. Because of this, the manufacturers of these displays often compensate by calibrating the colors in a way that oversaturates the them and adds a bluish tint to the screen.

With current technology, OLED displays use more energy than backlit LCDs when displaying light colors. While OLED displays have deeper blacks compared with backlit LCD displays, they have dimmer whites.

LCDs use liquid crystals that twist and untwist in response to an electric charge and are lit by a backlight. When a current runs through them, they untwist to let through a specific amount of light. They are then paired with color filters to create the display.

AMOLED (Active-Matrix Organic Light-Emitting Diode) is a different form of OLED used in some mobile phones, media players and digital cameras. It offers higher refresh rates with OLEDs and consume a lot less power, making them good for portable electronics. However, they are difficult to view in direct sunlight. Products with AMOLED screens include Galaxy Nexus, Galaxy S II, HTC Legend and PlayStation Vita.

high temperature lcd display pricelist

The TSPC temperature sensor with resistive setpoint control is available in an attractive wall mount enclosure and can be configured with various options. It is available with various curve-matched thermistors or RTD sensors to measure temperature.

A back-lit LCD displays room temperature, setpoint on demand and occupancy. Several operating parameters can be programmed using a keypad and on-board jumpers configure the ˚C/F display or disable the backlight.

Microprocessor based Temperature Sensor with LCD display, 1000 ohm nickel RTD, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with external jack for communications.

Microprocessor based Temperature Sensor with LCD display, 10K type 3 thermistor c/w 11K shunt resistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 10K type 3 thermistor c/w 11K shunt resistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F).

Microprocessor based Temperature Sensor with LCD display, 1000 ohm nickel RTD, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 1000 ohm nickel RTD, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with fan speed switch and exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 1000 ohm nickel RTD, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with fan speed switch.

Microprocessor based Temperature Sensor with LCD display, 1000 ohm nickel RTD, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with external jack for communications and exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 20,000 ohm thermistor, setpoint resistance to be 8000.7 ohms - 3107.3 ohms (20 steps between 16C-26C or 60F-80F).

Microprocessor based Temperature Sensor with LCD display, 20,000 ohm thermistor, setpoint resistance to be 8000.7 ohms - 3107.3 ohms (20 steps between 16C-26C or 60F-80F) with external jack for communications.

Microprocessor based Temperature Sensor with LCD display, 10K type 2 thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 10K type 2 thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with fan speed switch and exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 10K type 2 thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with fan speed switch.

Microprocessor based Temperature Sensor with LCD display, 10K type 2 thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with external jack for communications and exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 10K type 2 thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with external jack for communications.

Microprocessor based Temperature Sensor with LCD display, 10K type 2 thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F).

Microprocessor based Temperature Sensor with LCD display, 20,000 ohm thermistor, setpoint resistance to be 8000.7 ohms - 3107.3 ohms (20 steps between 16C-26C or 60F-80F) with fan speed switch.

Microprocessor based Temperature Sensor with LCD display, 1000 ohm platinum RTD, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with fan speed switch, and external jack for communications.

Microprocessor based Temperature Sensor with LCD display, 1000 ohm platinum RTD, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with external jack for communications, exposed override switch and fan speed switch.

Microprocessor based Temperature Sensor with LCD display, 1000 ohm platinum RTD, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with fan speed switch.

Microprocessor based Temperature Sensor with LCD display, 1000 ohm platinum RTD, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 1000 ohm nickel RTD, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F).

Microprocessor based Temperature Sensor with LCD display, 10K type 3 thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with fan speed switch and exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 1801 ohm thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with fan speed switch, and external jack for communications.

Microprocessor based Temperature Sensor with LCD display, 1000 ohm platinum RTD, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with external jack for communications.

Microprocessor based Temperature Sensor with LCD display, 1000 ohm platinum RTD, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F).

Microprocessor based Temperature Sensor with LCD display, 3000 ohm thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with external jack for communications, exposed override switch and fan speed switch.

Microprocessor based Temperature Sensor with LCD display, 3000 ohm thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with fan speed switch, and external jack for communications.

Microprocessor based Temperature Sensor with LCD display, 3000 ohm thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with external jack for communications.

Microprocessor based Temperature Sensor with LCD display, 3000 ohm thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F).

Microprocessor based Temperature Sensor with LCD display, 1801 ohm thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 1801 ohm thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with fan speed switch.

Microprocessor based Temperature Sensor with LCD display, 1801 ohm thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with external jack for communications and exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 1801 ohm thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with external jack for communications.

Microprocessor based Temperature Sensor with LCD display, 1801 ohm thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F).

Microprocessor based Temperature Sensor with LCD display, 100 ohm platinum RTD, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 100 ohm platinum RTD, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with fan speed switch and exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 100 ohm platinum RTD, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with fan speed switch.

Microprocessor based Temperature Sensor with LCD display, 100 ohm platinum RTD, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with external jack for communications and exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 3000 ohm thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with fan speed switch.

Microprocessor based Temperature Sensor with LCD display, 2.252K ohm thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 2.252K ohm thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with fan speed switch and exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 2.252K ohm thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with fan speed switch.

Microprocessor based Temperature Sensor with LCD display, 2.252K ohm thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with external jack for communications and exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 2.252K ohm thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with external jack for communications.

Microprocessor based Temperature Sensor with LCD display, 2.252K ohm thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F).

Microprocessor based Temperature Sensor with LCD display, 10K type 3 thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 10K type 3 thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with fan speed switch.

Microprocessor based Temperature Sensor with LCD display, 3000 ohm thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with exposed override switch.

Microprocessor based Temperature Sensor with LCD display, 10K type 3 thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F).

Microprocessor based Temperature Sensor with LCD display, 10K type 3 thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with external jack for communications.

Microprocessor based Temperature Sensor with LCD display, 10K type 3 thermistor, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with external jack for communications, exposed override switch and fan speed switch.

Microprocessor based Temperature Sensor with LCD display, 100 ohm platinum RTD, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F) with external jack for communications.

Microprocessor based Temperature Sensor with LCD display, 100 ohm platinum RTD, setpoint resistance to be 0 - 10,000 ohms (20 steps between 16C-26C or 60F-80F).

high temperature lcd display pricelist

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