Notifications
Clear all
Search result for: WA 0852 2611 9277 Jasa Design Interior Ruangan Untuk Dapur Apartment BTC Residence Bekasi
Page 4 / 4
Prev
Thermistors cost much less than the LM35 temperature sensor but require calibration due to their non-linear nature. At the same time, a thermistor is more accurate and precise(down to +/- 0.1°C) than an LM35(around +/- 0.5°C).
LM35: Very easy to integrate with Arduino. You can read the output voltage directly using an analog pin, and with simple conversion (multiply by 100 to convert from mV to °C), you get the temperature.
Thermistors: While they can be integrated, they often require additional components (like a resistor for a voltage divider) and more complex calculations to convert resistance to temperature. This can make them slightly more challenging to set up.
Main Differences
Feature
LM35 Temperature Sensor
Thermistor
Type
Integrated circuit (analog voltage output)
Resistor (typically NTC or PTC)
Output
Outputs a linear voltage (10 mV/°C)
Resistance changes non-linearly with temperature
Temperature Range
Typically -55 to +150 °C
Varies, but generally -40 to +125 °C
Accuracy
Typically ±0.5 °C or better
Can be very accurate, but depends on the type and calibration
Response Time
Fast response time
Generally fast but varies by Design
Ease of Use
Simple to interface with Arduino (analog input)
Requires more complex calculations for linearization
Calibration
Usually factory calibrated
Often requires calibration and look-up tables for accuracy
For most projects requiring precise temperature monitoring with reliable readings and ease of integration with Arduino, the LM35 is likely the best option. However, if you need the highest accuracy and can manage the additional complexity, consider using a thermistor
P.S.: LM358 is an OP-AMP IC. LM35 is a temperature sensor.
... Unit) and needs external components like memory (RAM/ROM), input/output interfaces, and peripherals to work.
Think of it as what you’d find in a computer, like an Intel Core i7 or an AMD Ryzen. It’s Designed for complex tasks and multitasking.
Applications: Computers, laptops, and smartphones.
Flexibility: You get to Design the system around it by adding the components you need.
Microcontroller (MCU):
A microcontroller, on the other hand, is more like an all-in-one package. It includes a CPU(a processor), memory (RAM/ROM), and peripherals like GPIO pins ...
... charger that I WAs recently involved in ran into over $23,000. The unit used a PIC Microcontroller and could charge 4 batteries of all construction types. 70% of this charge WAs in the 9 prototypes that were required. The PCB engineer and the software engineer put in many, many hours. Have you seen the dollars amount an engineer commands these days? My job WAs simple. I Designed the power switching interface between the Microcontroller and the battery.
An Arduino MEGA would have made this task much cheaper but we are aligned with Microchip and are ther ...
Hi guys
"Not cost effective " is a relative term. Yes the Arduino units are bulky and relatively expensive but in some (many) cases they are the only WAy to go. Using a single chip to do what an Arduino unit can do first requires a PCB to be Designed and often several will need to be done before the Design is ready. Prototypes then need to be made and again many, then components need to be purchased along with the inevitable out of stock lines sometimes requiring a redesign all blow out to often quite large production costs. I know I did this many times.
T ...
Page 4 / 4
Prev