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 LTC2983 
 Temperature sensors 

Multi-sensor high-precision temperature measurement system supporting RTDs, thermocouples, and thermistors via SPI interface.

 Maximum precision
+/- 0,1°K

 Minimum temperature
-200°C

 Maximum temperature
+1800°C

 Minimum dimensions
9 x 9 x 1

Response time

Medium

 Drift

Low

 Self-warming
Low

Price
High

What is a LCT2983 sensor ?Operating principleTechnical SpecificationsWiring ConfigurationSelf-warmingApplication areas

What is a LCT2983 sensor ?


The LTC2983 is a complete 24-bit temperature measurement system, directly managing:

  • Thermocouples (types B, E, J, K, N, R, S, T),
  • RTDs (Pt10 to Pt1000, 2/3/4 wire),
  • NTC/PTC thermistors,
  • and analog voltage sensors.

It integrates:

  • a 20-channel multiplexer,
  • two 24-bit sigma-delta converters,
  • an integrated linearization processor,
  • and automatic cold junction compensation.

In short: it replaces an entire measurement and calculation system, directly into a single SPI component.

Operating principle


The LTC2983 measures the voltage or resistance from the selected sensor, then:

1️⃣ converts the data via an ultra-precise 24-bit ADC,

2️⃣ automatically applies ITS-90 or Callendar-Van Dusen linearization,

3️⃣ and directly returns the compensated temperature in °C via SPI.

No external table or equation is required.

Technical Specifications


Parameter
Typical value

Resolution

24 bits
Noise at output 0,3 µV RMS
Precision ±0.1 K (with calibrated sensor)

Supported types

Thermocouple, RTD, NTC, PTC, diode, tension

Number of entries

20 multiplexed channels

Compensation cold-junction

Integrated

Interface

SPI 4 wires, up to 20 MHz

Supply

3,0 → 5,5 V

Consumption

1.5 mA (active measurement)

Case

QFN-48 or LQFP-48

Annual drift

±0,05 K/year

Wiring Configuration


Brooch
Name

Function

1-20

CH0–CH19

Sensor inputs (RTD, TC, NTC...)

21 GND

Mass

22 VREF+

Positive voltage reference

23

VREF-

Negative voltage reference

24

CS

Chip Select

25

SCK

SPI Clock

26

SDI

Incoming data (MOSI)

27

SDO

Outgoing data (MISO)

28

INT

Interrupt signal (data ready)

29-48

VDD / AVDD / DVDD

Power supply 3.3 or 5 V

Self-warming


Thanks to its programmable measurement currents (from 5 µA to 1 mA), the LTC2983 minimizes the self-heating of RTDs and NTCs, ensuring stable measurements even over long periods.

Application areas


⚙️ Multichannel industrial instrumentation

🔬 Thermal calibration benches

🧠 High-precision process control systems

💡 Medical equipment and laboratories

🧱 Centralized monitoring of various sensors (RTD, NTC, thermocouple)

🚀 Embedded applications where reliability = priority







Should I choose a MAX6675 sensor ?

Strengths points

  • 🎯 Absolute versatility
    → The LTC2983 handles all types of temperature sensors: RTD, thermocouples, NTC, PTC, and even diodes. A single component to centralize all thermal measurements of a system.
  • ⚙️ Integrated linearization and compensation
    → It internally applies the ITS-90 and Callendar-Van Dusen equations, with automatic cold junction compensation, eliminating the need for any external software processing.
  • 🧠 Laboratory resolution and precision
    → With its 24 bits and an accuracy of ±0.1 K, it outperforms most external measuring instruments. It is a complete converter + thermal processor on a single chip.

Weaknesses points

  • 💰 High cost and complexity
    → The LTC2983 is not just a simple sensor: it is a complete subsystem. Its price and configuration are only justified in professional or multi-sensor environments.
  • 🧩 Requires advanced software configuration
    → The SPI initialization involves programming the channels, types of sensors, coefficients, and excitation currents. It therefore requires skills in embedded development.
  • 🔋 Consumption and clutter
  • → With more than 40 pins and a consumption of 1.5 mA, it is too heavy for small low-energy systems.

Useful information

Here is some useful information regarding the LTC2983 sensors.

With more than 40 pins and a consumption of 1.5 mA, it is too heavy for small low-energy systems.

Parameter Typical value
ADC Resolution
24 bits (0.00006% of full scale)
Absolute precision
±0.1 K (calibrated RTD or thermocouple)
RMS Noise
0,3 µV
Measurement range
−200 → +1800 °C (according to sensor)
Supported types
RTD, thermocouple, NTC/PTC, diode, tension
Compensation cold-junction
Integrated
Excitation current
Programmable (5 µA → 1 mA)
Power supply voltage
3,0 → 5,5 V
Active consumption
1,5 mA
Annual drift
±0,05 K
SPI Interface
Up to 20 MHz

🔹 Remarks:

  • The LTC2983 directly calculates temperature in °C — no external calculation required.
  • The effective resolution (ENOB) reaches 23 bits on RTD / NTC.
  • Factory calibration across the entire analog chain.

The LTC2983 operates as an integrated thermal microprocessor.

The user configures a channel (sensor type, current, compensation, coefficients),

then reads the temperature directly in signed binary on 24 bits.


🔹 SPI read structure (32 bits)

Bits Name
Description
[31 → 24] Channel address
Selected sensor
[23 → 0] Temperature (signed)
Value × scale factor
Simplified equation (RTD or NTC)

T (°C) = Raw value / 1024

Example:

SPI Reading → 0x0001F400

Raw value 0x1F400 = 128000₁₀ 

T = 128000 / 1024 = 125.0 °C

✅ Measured temperature: 125 °C


🔹 Thermocouple reading with automatic compensation

The LTC2983 simultaneously measures:

  • the thermocouple voltage,
  • the internal cold junction temperature (integrated diode),
  • and then adds the two to provide a directly compensated absolute temperature.

The LTC2983 connects via 4-wire SPI to any microcontroller (Arduino, STM32, ESP32, Raspberry Pi…).

It can drive up to 20 independent channels, each configured for a different type of sensor.

🔹 Typical components

Component Function
LTC2983 Multisensor thermal measurement system
Microcontroller / CPU
Lecture SPI and channel configuration
RTD sensors, TC, NTC, PTC, diode
Analog Inputs
Precision resistors 10 kΩ / 0.1 %
RTD References
Capacitors 100 nF / 10 µF
Power filtering
Stable power supply 3.3 or 5 V
Main source
Reference voltage (LTC6655 or equivalent)
Ultra-stable reference 2.5–5 V
🔹 Functional diagram (ASCII)
+5V
│
[RTD / TC / NTC Sensor]
│
┌──────────┐
│ LTC2983 │
│──────────│
│ CH0–CH19 → sensor inputs │
│ CS → GPIO (MCU) │
│ SCK → SPI CLK │
│ SDI → MOSI │
│ SDO → MISO │
│ INT → GPIO (data ready) │
│ VREF+ / VREF− │
│ GND / AVDD / DVDD │
└──────────┘
│
┌────────────┐
│ Microcontroller │
└────────────┘

💡 The channels CH0–CH19 can be configured independently for each type of sensor.

🔹 Operating principle

1️⃣ The microcontroller configures each channel (type, coefficients, current, etc.).

2️⃣ The LTC2983 performs the analog measurement.

3️⃣ It automatically applies linearization and cold-junction compensation.

4️⃣ The MCU directly reads the temperature in °C via SPI.

Advantage Description
🧠 Complete multi-sensor measurement system Supports RTD, TC, NTC, diodes, and voltages
⚙️ Integrated linearization and compensation No calculation code on MCU
🎯 Laboratory precision ±0.1 K 24-bit ADC and factory calibration
🧩 20 independent channels Simultaneous reading of multiple sensors
💡 Fast SPI (20 MHz) Compatible with industrial MCUs and SBCs
🔋 Minimal warm-up Programmable current 5 µA → 1 mA
🔧 Integrated diagnostics Short-circuit detection, open sensor, cold-junction error

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More than 1,000,000 probes delivered in 2025

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