Calculates total power consumption and battery life for Arduino/ESP32/RP2040 projects. Use when user asks about battery life, power requirements, current draw, or needs to estimate runtime. Includes sleep mode analysis, power optimization tips, and battery sizing recommendations. Run scripts/calculate_power.py for accurate calculations.
Estimates power consumption and battery life for embedded projects.
Run the calculator interactively:
uv run scripts/calculate_power.py --interactive
Or calculate for a single component:
uv run scripts/calculate_power.py --component ESP32 --mode deep_sleep --duty 95
Load a project configuration:
uv run scripts/calculate_power.py --json assets/example-project.json --output report.md
List all components in database:
uv run scripts/calculate_power.py --list
Ask user for:
Run scripts/calculate_power.py --interactive for guided calculation, or use this template:
# Power Budget: [Project Name]
## Operating Conditions
- Supply Voltage: [V]
- Operating Modes: [Active/Sleep cycles]
- Duty Cycle: [X% active, Y% sleep]
## Component Current Draw
### Always-On Components
| Component | Voltage | Current | Power | Notes |
|-----------|---------|---------|-------|-------|
| [name] | [V] | [mA] | [mW] | [conditions] |
| ... | ... | ... | ... | ... |
| **Subtotal** | - | **[mA]** | **[mW]** | - |
### Active Mode Only
| Component | Voltage | Current | Power | Duty % |
|-----------|---------|---------|-------|--------|
| [name] | [V] | [mA] | [mW] | [%] |
| ... | ... | ... | ... | ... |
| **Subtotal** | - | **[mA]** | **[mW]** | - |
### Peak Current Events
| Event | Current | Duration | Frequency |
|-------|---------|----------|-----------|
| [WiFi TX] | [mA] | [ms] | [per hour] |
| ... | ... | ... | ... |
## Power Calculations
### Average Current
I_avg = (I_active × t_active + I_sleep × t_sleep) / t_total I_avg = ([X]mA × [Y]s + [Z]mA × [W]s) / [T]s I_avg = [result] mA
### Battery Life Estimate
Capacity: [X] mAh Efficiency factor: 0.8 (80% usable) Effective capacity: [X × 0.8] mAh
Runtime = Effective capacity / I_avg Runtime = [X] mAh / [Y] mA Runtime = [Z] hours ([days] days)
## Recommendations
- [Power optimization suggestions]
- [Battery type recommendation]
- [Sleep mode configuration]
| Mode | Current | Notes |
|---|---|---|
| Active (16MHz) | 15-20mA | No peripherals |
| Idle | 6mA | CPU stopped, peripherals on |
| Power-down | 0.1µA | Only WDT/external interrupt |
| With USB-Serial | +50mA | CH340/FTDI chip always on |
| Mode | Current | Notes |
|---|---|---|
| Active (WiFi TX) | 160-260mA | Peak during transmission |
| Active (WiFi RX) | 95-100mA | Listening |
| Active (no WiFi) | 20-68mA | CPU only |
| Modem-sleep | 20mA | WiFi off, CPU on |
| Light-sleep | 0.8mA | CPU paused |
| Deep-sleep | 10µA | RTC only |
| Hibernation | 5µA | RTC off |
| Mode | Current | Notes |
|---|---|---|
| Active (WiFi TX) | 320mA peak | Brief spikes |
| Active (BLE) | 50-100mA | During advertising |
| Active (no radio) | 25-35mA | CPU at 160MHz |
| Light-sleep | 130µA | Auto wake |
| Deep-sleep | 5µA | RTC on |
| Mode | Current | Notes |
|---|---|---|
| Active (both cores) | 25-50mA | Depends on clock |
| Single core | 15-25mA | One core dormant |
| Dormant | 0.18mA | Wake on GPIO/RTC |
| Sleep | 1.3mA |
| Mode | Current | Notes |
|---|---|---|
| WiFi active | 50-150mA | During TX |
| WiFi idle | 30-40mA | Connected, listening |
| WiFi off | 25-50mA | Radio disabled |
| Sensor | Active | Sleep | Notes |
|---|---|---|---|
| DHT22 | 1.5mA | 50µA | During read |
| BME280 | 0.35mA | 0.1µA | Forced mode |
| BMP280 | 0.27mA | 0.1µA | |
| MPU6050 | 3.8mA | 5µA | All axes |
| DS18B20 | 1.5mA | 1µA | During conversion |
| HC-SR04 | 15mA | 2mA | No true sleep |
| VL53L0X | 19mA | 5µA | During ranging |
| MAX30102 | 600µA | 0.7µA | Low power mode |
| BH1750 | 120µA | 1µA | Power down mode |
| GPS (NEO-6M) | 45mA | 11mA | Backup mode |
| Display | Active | Off/Sleep | Notes |
|---|---|---|---|
| 16x2 LCD (backlight) | 80-120mA | 1mA | Backlight dominates |
| 16x2 LCD (no backlight) | 1-2mA | 1mA | |
| SSD1306 OLED 128x64 | 8-20mA | 10µA | Depends on content |
| SSD1306 OLED 128x32 | 5-15mA | 10µA | |
| ST7735 TFT | 20-40mA | 20mA | Backlight always on |
| ILI9341 TFT | 50-80mA | 50mA | |
| E-Paper 2.9" | 8mA | 0µA | Only during refresh |
| Module | TX Peak | RX/Idle | Sleep | Notes |
|---|---|---|---|---|
| ESP8266 (module) | 170mA | 70mA | 20µA | Deep sleep |
| NRF24L01 | 11.3mA | 13.5mA | 0.9µA | |
| HC-05 Bluetooth | 40mA | 8mA | 2mA | |
| RFM95 LoRa | 120mA | 10mA | 0.2µA | |
| SIM800L GSM | 2A peak | 15mA | 1mA | Needs big cap! |
| Component | Current | Notes |
|---|---|---|
| LED (typical) | 10-20mA | Through resistor |
| RGB LED (each color) | 20mA | Per channel |
| WS2812B NeoPixel | 60mA max | Full white |
| SG90 Servo (idle) | 10mA | No load |
| SG90 Servo (moving) | 200-500mA | Under load |
| MG996R Servo | 500-900mA | Under load |
| Small DC motor | 100-500mA | Varies with load |
| 5V Relay module | 70-100mA | Coil energized |
| Buzzer (passive) | 30mA |
#include <esp_sleep.h>
#define uS_TO_S_FACTOR 1000000ULL
#define TIME_TO_SLEEP 60 // seconds
void setup() {
// Do measurements here
// Configure wake-up source
esp_sleep_enable_timer_wakeup(TIME_TO_SLEEP * uS_TO_S_FACTOR);
// Enter deep sleep
esp_deep_sleep_start();
}
void loop() {
// Never reached
}
#include <avr/sleep.h>
#include <avr/wdt.h>
void enterSleep() {
set_sleep_mode(SLEEP_MODE_PWR_DOWN);
sleep_enable();
sleep_mode(); // Sleep here
sleep_disable();
}
// Wake on watchdog or external interrupt
ISR(WDT_vect) {
// Wake up
}
Power Gating:
VCC
│
[P-MOSFET] ← GPIO (LOW = ON)
│
[Sensor/Module]
│
GND
Duty Cycling Formula:
I_average = (I_active × T_active + I_sleep × T_sleep) / T_total
Example: Sensor reads every 5 minutes
- Active: 50mA for 2 seconds
- Sleep: 10µA for 298 seconds
I_avg = (50mA × 2s + 0.01mA × 298s) / 300s
I_avg = (100 + 2.98) / 300
I_avg = 0.34mA
With 2000mAh battery:
Runtime = 2000mAh × 0.8 / 0.34mA = 4706 hours = 196 days
| Type | Voltage | Typical Capacity | Notes |
|---|---|---|---|
| CR2032 | 3V | 220mAh | Very low current only |
| 2x AA Alkaline | 3V | 2500mAh | Good for low power |
| 3x AA Alkaline | 4.5V | 2500mAh | Direct to 5V systems |
| 4x AA Alkaline | 6V | 2500mAh | With LDO to 5V |
| 18650 Li-ion | 3.7V | 2000-3500mAh | Rechargeable, popular |
| LiPo 1S | 3.7V | Various | Flat, light |
| 9V Alkaline | 9V | 500mAh | Poor energy density |
18650/LiPo Discharge Curve:
Capacity% Voltage
─────────────────────
100% 4.2V
80% 3.9V
50% 3.7V
20% 3.5V
0% 3.0V (cut-off!)
Never discharge below 3.0V - damages cell!
Alkaline AA Discharge:
Capacity% Voltage (per cell)
─────────────────────────────
100% 1.5V
50% 1.2V
0% 0.9V
Many devices stop working below 1.1V/cell
Enter your values:
Always-on current: ______ mA
Active current: ______ mA
Active time: ______ seconds
Sleep current: ______ mA
Sleep time: ______ seconds
Battery capacity: ______ mAh
Average current = (Active_mA × Active_s + Sleep_mA × Sleep_s) / Total_s
= (_____ × _____ + _____ × _____) / _____
= _____ mA
Runtime = Capacity × 0.8 / Average_current
= _____ × 0.8 / _____
= _____ hours
= _____ days