High precision and high edge current detection amplifier monitoring PWM load current

Figure 1 Speaker Protection Circuit

    "At the moment of turning on the audio power supply, because the voltage at both ends of capacitor C3 cannot suddenly change, it can be considered as a short circuit, and the potential of pins ② and ⑥ of time base circuit 555 is higher than 2/3 Vcc, so 555 is in a reset state. Pin ③ outputs a low level, transistor VT2 is turned off, and the normally open contact of relay JK does not act.". At the same time, a voltage of+12 V is charged to the capacitor C3 through the resistor R4. After a delay of about 5 s (seconds), the potential of the ② and ⑥ pins of 555 decreases to 1/3 Vcc, and 555 is triggered to set. The ③ pin changes from a low level to a high level. The transistor VT2 is turned on, the relay JK is powered on, and the normally closed contact is closed, thereby achieving a delay in connecting the speaker to the power amplifier for a period of time, completely eliminating the impact of high current on the speaker during startup;

    When turning off the audio power supply, the+12 voltage quickly disappears, but the amplifier output signal does not immediately disappear, which also avoids the impact noise generated during the shutdown process;

    When the midpoint potential is too high (higher than 1.8 V) due to abnormal operation or accidental damage of the power amplifier, the DC voltage is limited by R1 and R2 and sent to C1 and C2 filtering and D1 to D4 rectification. For about 1-2 seconds, transistor VT1 is turned on, pin ④ of 555 changes from high to low, and 555 is directly reset. Pin ③ outputs a low level, transistor VT2 is turned off, relay JK loses power, and the normally open contact jumps open, disconnecting the speaker from the power amplifier circuit, Effectively protects the speaker from damage.

    By changing the parameters of R4 and C3, the length of the startup delay time of the speaker protection circuit can be adjusted, generally set to 5 seconds.