1. הקדמה
This manual provides detailed instructions for the DROK L298 Dual H-Bridge DC Motor Driver, Model 200206. This module is designed for controlling the speed and direction of two independent DC motors. It features a wide input voltage range, high current capability, and integrated protection mechanisms, making it suitable for various industrial and hobby applications.
Figure 1: DROK L298 Dual H-Bridge DC Motor Driver (Model 200206)
2. מפרטים
| תכונה | עֵרֶך |
|---|---|
| מותג | דרוק |
| מספר דגם | 200206 |
| קלט כרךtagטווח | זרם ישר 6.5V - 27V |
| Rated Output Current (per port) | 7A |
| כוח פלט כולל | 160W |
| סוג בקרה | גשר H כפול |
| טווח תדרים PWM | 0 - 10 קילוהרץ |
| תכונות הגנה | תחת כרךtage הגנה |
| מידות | 2.17 x 2.17 x 0.63 אינץ' (55 x 55 x 16 מ"מ) |
| משקל פריט | 1.44 אונקיות (40.8 גרם) |
Figure 2: Physical Dimensions of the Motor Driver
3. התקנה וחיווט
Proper wiring is crucial for the safe and effective operation of the motor driver. Refer to the diagram below for connection points.
Figure 3: Wiring Diagram and Pinout
3.1 חיבורי חשמל
- Main Power Input (6.5V-27V): Connect your DC power supply to the green screw terminal labeled "6.5-27V" and "GND". Ensure the polarity is correct (+ to + and - to -). A 15A fuse is recommended in series with the positive power input.
- Logic Power Input (+5V): The module requires a separate 5V logic power supply. Connect a stable 5V DC source to the "+5V" pin on the control signal header and its corresponding "GND" pin. Note: The logic supply voltage should match the control signal voltage from your microcontroller (e.g., 3.3V for a 3.3V microcontroller).
3.2 חיבורי מנוע
- יציאת מנוע 1: Connect the first DC motor to the screw terminals labeled "OUT1" and "OUT2".
- יציאת מנוע 2: Connect the second DC motor to the screw terminals labeled "OUT3" and "OUT4".
- Each motor output port is rated for 7A. It is advisable to include a 10A fuse in series with each motor for protection.
3.3 Control Signal Connections
The control signals are typically provided by a microcontroller (e.g., Arduino). The module supports two independent motors.
- Motor 1 Control:
- IN1, IN2: These digital input pins control the direction of Motor 1.
- ENA (PWM1): This pin enables Motor 1 and accepts a Pulse Width Modulation (PWM) signal for speed control.
- Motor 2 Control:
- IN3, IN4: These digital input pins control the direction of Motor 2.
- ENB (PWM2): This pin enables Motor 2 and accepts a PWM signal for speed control.
4. הוראות הפעלה
The DROK L298 Dual H-Bridge Motor Driver allows for precise control over DC motors. The following tables outline the logic for controlling motor direction and speed.
4.1 Motor Direction Control (for Motor 1, using IN1 and IN2)
| IN1 | IN2 | Motor 1 Action |
|---|---|---|
| גָבוֹהַ | נָמוּך | סיבוב קדימה |
| נָמוּך | גָבוֹהַ | סיבוב הפוך |
| נָמוּך | נָמוּך | Brake (Short Circuit) |
| גָבוֹהַ | גָבוֹהַ | Brake (Short Circuit) |
Note: The same logic applies to Motor 2 using IN3 and IN4.
4.2 Motor Speed Control (using ENA/PWM1 or ENB/PWM2)
Motor speed is controlled by applying a Pulse Width Modulation (PWM) signal to the ENA (for Motor 1) or ENB (for Motor 2) pin. The PWM signal should have a frequency range of 0-10KHz.
- A 0% duty cycle PWM signal will result in the motor being off.
- A 100% duty cycle PWM signal will result in the motor running at full speed.
- Intermediate duty cycles will adjust the motor speed proportionally.
Exampעל: To run Motor 1 forward at 50% speed, set IN1 to HIGH, IN2 to LOW, and apply a 50% duty cycle PWM signal to ENA.
4.3 הדגמה מבצעית
Video 1: Demonstration of the DROK Motor Driver controlling a DC motor with PWM speed adjustment. This video illustrates the connection of the motor driver to a motor and a PWM signal generator, showing how the motor speed can be varied.
5. תחזוקה
- ניקוי: Keep the module free from dust and debris. Use a soft, dry brush or compressed air for cleaning. Avoid using liquids.
- תנאים סביבתיים: Operate the module within its specified temperature and humidity ranges. Avoid exposure to extreme temperatures, moisture, or corrosive environments.
- חיבורים: בדקו מעת לעת את כל חיבורי החיווט כדי לוודא שהם מאובטחים וחופשיים מקורוזיה. חיבורים רופפים עלולים לגרום לפעולה לסירוגין או נזק.
- ניהול חום: While the module is designed for efficient operation, ensure adequate ventilation, especially when driving motors at high currents or for extended periods.
6. פתרון תקלות
- מנוע לא מגיב:
- Verify all power connections (main power and logic power) are correctly wired and supplied with the correct voltage.
- Check motor connections for proper polarity and secure contact.
- Ensure control signals (IN1/IN2 or IN3/IN4) are correctly applied and the ENA/ENB pin is receiving a valid PWM signal.
- Confirm the motor itself is functional by testing it directly with a power source.
- Motor Runs Only at Full Speed or Not at All:
- Check the PWM signal on the ENA/ENB pin. Ensure it is within the 0-10KHz frequency range and has a varying duty cycle for speed control.
- Verify that the logic power supply voltage matches the control signal voltage from your microcontroller. A mismatch can cause incorrect logic interpretation.
- התחממות יתר של המודול:
- Ensure the motor current does not exceed the rated 7A per channel.
- Provide adequate ventilation around the module.
- Check for short circuits in the motor wiring or the motor itself.
- תחת כרךtagהגנה אלקטרונית הופעלה:
- The module has built-in under voltagהגנה אלקטרונית. אם עוצמת הקלטtage drops below a certain threshold, the module may cease operation to prevent damage.
- Verify your main power supply can provide sufficient voltage and current under load.
7. אחריות ותמיכה
DROK products are designed for reliability and performance. For specific warranty information, please refer to the product packaging or contact DROK customer support directly. Technical assistance and further resources may be available through the official DROK webאתר או מפיצים מורשים.
לתמיכה נוספת, אנא בקרו באתר חנות DROK באמזון.
