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 TMP121 
 Temperature sensors 

High-precision digital temperature sensor with SPI interface, ideal for applications requiring stable and repeatable readings.

 Maximum precision
+/- 1,0°K

 Minimum temperature
-55°C

 Maximum temperature
+150°C

 Minimum dimensions
3 x 3 x 1

Response time

Fast

 Drift

Low

 Self-warming
Low

Price
Low

What is a TMP121 sensor ?Operating principleTechnical SpecificationsWiring ConfigurationSelf-warmingApplication areas

What is a TMP121 sensor ?


The TMP121 is a digital temperature sensor with SPI from Texas Instruments, designed for low-power systems requiring stable and linear measurements.

It is a more compact and cost-effective version of the TMP125, while maintaining the same accuracy of ±1 K.

It is commonly used in:

  • power electronics PCBs,
  • embedded systems,
  • or portable devices requiring direct reading via SPI.

Operating principle


The TMP121 integrates an internal thermal diode whose voltage is measured and converted via a 12-bit ADC.

The result is transmitted over 16 bits via the SPI bus (read-only).

The data is encoded in two's complement (bit 15 = sign).

T(°C) : Value12b x 0,0625

Technical specifications


Parameter
Typical value
Resolution 12 bits (0,0625 °C / LSB)

Measurement range

−55 → +150 °C

Precision

±1,0 K (typ.)

Interface

SPI (read-only, 3 wires)

Conversion time

120 ms

Max. SPI Frequency

10 MHz

Supply

2,7 → 5,5 V

Consumption

220 µA typical

Sleep mode

< 1 µA

Case

SOT-23-6 or SON-6

Annual drift

±0,1 K

Wiring Configuration


Brooch
Name

Function

1

CS

Chip Select

2 SO

SPI Output (MISO)

3 SCK

SPI Clock

4

V+

Power supply 2.7–5.5 V

5

GND

Mass

6

NC

Not connected

Self-warming


Almost none: less than 0.05 °C, even in an isolated environment.

Ideal for thermal monitoring directly on sensitive components (regulators, CPUs, RF modules).

Application areas


⚙️ Thermal surveillance of electronic components

🔋 Thermal management in embedded systems or IoT

💡 Temperature control for FPGA, ASIC, MCU

🧠 Portable or miniaturized instrumentation

🧱 Compact industrial supervision







Should I choose a TMP121 sensor ?

Strengths points

  • ⚙️ Direct and reliable reading
    → The TMP121 provides a pre-linearized SPI value, without amplification or external calculation. Result: ultra-simple and quick integration into any microcontroller.
  • 🔋 Low energy consumption
    → With only 220 µA in operation and < 1 µA in standby, it is ideal for battery-powered systems or those with very low thermal dissipation.
  • → The 3 mm SOT-23-6 package allows it to be placed as close as possible to critical areas (regulators, converters, processors, etc.) while maintaining a precision of ±1 K.
TMP121 sensor

Weaknesses points

  • 🌡️ Temperature limited to 150 °C
    → The TMP121 is not suitable for high industrial temperature environments (>150 °C).
  • 🔋 No software configuration
    → The SPI interface is read-only, with no adjustment registers (no software calibration or filters).
  • 📶 One single measurement path
    → Single-channel sensor, so a component is needed for each measurement point, unlike an ADC type MCP3208.

Useful information

Here is some useful information regarding the TMP121 sensors.

The TMP121 provides a 12-bit signed digital output (two's complement) via SPI interface.

Each bit corresponds to a variation of 0.0625 °C, ensuring excellent measurement resolution for a miniature sensor.

Parameter Typical value
Resolution
12 bits (0,0625 °C / LSB)
Precision
±1.0 K (from -25 to +100 °F)
Measurement range
−55 → +150 °C
Annual drift
±0,1 K
Conversion time
120 ms typical
Max. SPI Frequency
10 MHz
Power supply voltage
2,7 → 5,5 V
Typical current
220 µA
Sleep mode
< 1 µA

🔹 Remarks:

  • The TMP121 is factory calibrated, with no need for external correction.
  • Self-heating is negligible (< 0.05 °C).
  • The conversion is automatic upon power-up.

The TMP121 sends a 16-bit frame with each SPI read.

The 12 most significant bits represent the temperature, and the 4 least significant bits are always 0.

🔹 SPI word structure (16 bits)

Bit(s) Name
Description
[15] Sign 0 = positive / 1 = negative
[14 → 3] Temperature (12 bits) Value × 0.0625 °C
[2 → 0] Zéro Unused
🔹 Conversion equation

T (°C) = Valeur_{12b} × 0,0625


Practical example:

SPI reading → 0x07D0

0x07D0 = 2000₁₀ 

T = 2000 × 0,0625 = 125,0 °C

✅ Measured temperature = 125 °C

The TMP121 communicates via 3-wire SPI (CS, SCK, SO).

No adjustments or external components are required, greatly simplifying integration on the board.

🔹 Typical components

Component
Function
TMP121 SPI Temperature Sensor
Microcontroller (3.3V or 5V)
Master SPI
100 nF capacitor
Decoupling of the power supply
Pull-up resistance (optional)
Stability on CS
Supply
2,7 → 5,5 V DC
🔹 Functional diagram (ASCII)

+3.3V / +5V │ [TMP121] │ SO ─────► MISO (MCU) SCK ◄──── CLK (MCU) CS ◄──── GPIO (MCU) GND ───── GND

💡 Multiple TMP121 devices can share the same SPI bus, provided each has a dedicated CS line.

🔹 Operating Principle

1️⃣ The microcontroller pulls down the CS line.

2️⃣ The TMP121 sends 16 bits representing the temperature.

3️⃣ The MCU calculates T=value×0.0625 T = value × 0.0625 T=value×0.0625.

4️⃣ The sensor returns to low power mode until the next reading.

Advantage Description
🧠 Direct reading in °C Internal digital conversion, no calibration required
⚡ Simple and fast SPI (10 MHz) Compatible with most MCUs
💡 Miniature case (3 mm) Ideal for direct mounting on PCB
🔋 Low consumption Suitable for battery-operated systems
🎯 Good stability and low noise Accuracy ±1 K, drift ±0.1 K/year
🧱 Immediate integration No external component required

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