Electric is a very great invention, electricity makes our lives more exciting, we have no life now, can you understand the circuit map? I believe that many people are unclear, let’s talk about the electric shrimp Circuit diagram, I hope to help you.
Electric is a very great invention, electricity makes our lives more exciting, we have no life now, can you understand the circuit map? I believe that many people are not clear, let’s talk about it. Electric shrimp machine circuit diagram, I hope to help you.
Electronic fishing shrimp circuit diagram
One time base circuit from the double time base set circuit IC and the resistor R1, R2, capacitors C1, C2, LED VL1, Potentiometers RP1, RP2, etc. form a low frequency multi-resmium. When the oscillator is placed, the VL1 flashes.
When another time-based circuit within the IC is formed in a high-frequency multi-resonator C, a high-frequency multi-resonator C, a high-frequency multi-resonator C, and the like, VL2. Shine.
The high pressure generating circuit consists of VM0S field effect transistors Vf1, VF2, resistors R7 to R11, regulator diode Vs, and boost transformer T.
Under the control of the low frequency multi-resonator, the high frequency multi-restriction oscillator outputs a pulse signal from the 9 pin of the IC. After VF1 and VF2 amplify, the pulse high pressure is generated by the boost transformer T.
When used, the two high-voltage electrodes are released in the water (about 1M), and then put the switch S1 in ” “Location, turn on the power switch S3, then press the work button S2.
R1 ~ R7 selected 1 / 4W carbon film resistor or metal film resistor; R8 and R9 are all selected from 1 to 2W wire resistors; R1O and R11 are available Electric furnace wire winding.
RP1 ~ RP4 is selected with a small solid potentiometer.
C1 uses an aluminum electrolyte capacitor having a pressure resistance value of 16V; C2 to C4 use a polyester capacitor or a monolithic capacitor.
VL1 and VL2 are all selected from the light emitting diode of φ5mm.
VS selected 1 N5951B 1.5W, 120V regulated diode.
The VF1 and YF2 are both 15 to 20A, the power is 100W, the pressure is 200V.Rate VM0S field effect transistor, such as the model of buz350.
IC Select the NE556 dual-time base set circuit.
S1 uses a single-pole double (single knife double throw) switch; S2 selects a normally open button; S3 selects a power switch greater than 5A of the contact current capacity.
GB selects the lead-acid battery with 60A · H.
T outputs a transformer with a row of car ignition coils or black and white television.
When debugging, a 10A current table is connected in series between the positive electrode of the battery CB and the power switch S3, and then put the switch S1 in the “test” position, adjust the two high voltage output electrodes, so that the same is about 10mm. And fix it.
Tune the resistance of RP3 and RP4 to the maximum, turn on the power switch S3, then press S2 not let go, simultaneously adjust the RP3 and RP4, so that the readings of the current table are about 4A, and the discharge spark between the high voltage electrode The strongest.
Electronic fishing shrimp circuit
The electronic fishing shrimp machine described in this example can produce nearly 10,000 pulse high pressure, and its output pulse power is up to 100 W, suitable for fish and shrimp farming Professional households are used to fish fish. Circuit Working Principle This electronic fishing shrimp is composed of two multi-restriction oscillators and high voltage generation circuits, as shown in Figure 4-60. In the circuit, one time based circuit in which the dual-time base integrated circuit IC is interior, and the resistor R1, R2, capacitors C1, C2, LED VLL, potentiometers RPL, RP2, and the like. When the mobility is operating, the VL1 flashes; the other time based circuitry inside the IC is constituted high-frequency multi-resmicker in the resistor R3, R4, the light emitting diode VLZ, potentiometer RP3, capacitors C3, C4, and the like. When the oscillator is operating, the VLZ flashes; the high pressure generating circuit consists of VMOS field effect transistors VFL, V F2, resistors R7 to R11, regulator diode VS, and boost transformer T. Under the control of the low frequency multi-resonator, the high-frequency multi-restriction oscillator outputs a pulse signal from the 9 pin of the IC. After the VF1 and V are amplified, the pulse high pressure is generated by the boost transformer T. When using, the two high-voltage electrode is released in the water (around the LM), and then the switch S1 is placed in the “working” position, and then the power switch S3 is turned on, then click the work button S2.. Components Select R1 R1 to select 1 / 4W carbon film resistor or metal film resistor; R8 and R9 are all selected from the wire-around resistor for 1 2W; R10 and R11 can be wound. RPL A RN is selected with a small solid potentiometer. C1 uses an aluminum electrolyte capacitor having a pressure resistance value of 16V; C2 1 C4 uses a polyester capacitor or a monolithic capacitor. VLL and VL, 2 are selected from the LP5 mm LED. Vs is selected from 1 N5951B 1.5W, 120V regulator diode. The VFL and VF2 are both current to compatibility a 20A, the power is LOO W, the high power VMOS field effect transistor, such as the buzing voltage of 200 V, such as the model. The IC is selected with the NE556 dual-time base set circuit. S1 uses a single-pole double bit (single knife double throw) switch; S2 uses a normally open button; S3 uses a power switch greater than 5A with a contact current capacity. GB selection of lead-acid batteries with 60A · H. T Output transformers can be output using a row of automotive ignition coils or black and white televisions. When the circuit is debugged, a 10A current table is connected in series between the positive electrode and the power switch S3 of the battery GB, and then the switch S1 is placed in the “test” position, adjusting the two high-voltage output electrodes, so that the LOMM is left left and fixed. The resistance of RP3 and RN is adjusted to the maximum, turn on the power switch S3, then press S2 without letting go, simultaneously adjust the RP3 and RN, so that the current table is about 4A, and the discharge spark between the high voltage electrode is the strongest.
Electric Shrimp Machine Circuit Diagram
Electric Shrimp Machine Working Principle and Component Specification
This kind of transistor V1 of the prawns V2, transformers T1, T2, resistor R1, potentiometer RP1, diode VD3, and capacitor C3 composition.
The high voltage output circuit consists of transformer T2, relay k, diode VD1, VD2, VD6, resistor R2, capacitors C1, C2, and 氖 indicators HL and electrodes A, B.
After the power switch is turned on, the 12V DC voltage provides a starter pulse for RP1, C3, VD3 and T1 to V1, so that V1 first triggers, then V1 and V2 in T1, R1, and “once windings (W4 Under the feedback of W5 windings, it quickly enters alternating conductive and cutThe stop-pull oscillation state, the secondary winding (W6 winding) of T2 generates an AC voltage of about 220V. This electrical pressure is transformed into a DC voltage of about 400V via VD1, VD2, and C1, C2 multiplier rectification, through the relay K The normally open contact is applied to the electrode A (with the net) and the electrode B.
At the same time, after the stable oscillator oscillates, outputting the duty cycle adjustable control voltage from the 3 foot of the IC, working with the K intermittent electricity, and will be generated between the electrode A and the electrode B Intermittent DC high pressure.
When using, the bamboo pole of the electrode A and the electrode B (should pay attention to personal safety), the electrode A and the electrode B are 3m left and right, and the fish in the waters between the two electrodes will be Received electric shock to facilitate fishing. Adjust the resistance of the RP1, change the oscillation frequency of the inverter circuit. Changing the resistance of the RP2 can vary the duty cycle of the oscillating signal without steady-state oscillator, thereby changing the proximity and release of the K. After the inverter is oscillating, the indicator HL lights up.
Electric Shrimp Machine Circuit Diagram
R1 Select the 8 ~ 1OW of wire resistant; R2 ~ R4 is selected 1 / 4W metal film resistor.
RP1 selection 2 \ 7 synthetic membrane potentiometer; RP2 uses a small organic solid potentiometer.
C1 and C2 are selected from the aluminum electrolyte capacitor having a pressure resistance value of 630V; C3 selects an aluminum electrolytic capacitor having a pressure resistance value of 3001 / or more; C4 uses an aluminum electrolytic capacitor with a pressure resistance value of 16V; C5 selected independent Stone-electric container.
VD1 and VD2 were selected from the 1N5408 silicon rectifier diode; Even 1N4007 silicon rectifier diode was selected from 1 N4007 silicon rectifier diode; VD3 and Vd4 were selected from 1 N4148 silicon switch diode.
V1 and V2 use MJ10016 or Bu932, MJ10025 silicon NPN Dalinkon transistors.
K selected a JTX series 12V DC relay (two sets of normally open contacts in parallel).
S selects a power switch having a contact current load of 10A or more.
T1 uses E12 type magnetic core and high-strength paint line production: W1 winding with φ0.31mm enameled wire around 200, W2 windings and W3 windings each by 10 φ 40 φ; T2 uses 40mm × 40 mm E-type core and high-strength enameled wire production, W4 and W5 windings with φ1.8mm enameled lines 16, W6 windings around 150 φ.
GB is selected from the lead-acid battery of 12V, 60A · H.
The above is the electric trutter circuit diagram, the small partner does not understand, I believe that many people must think about it. It is not very convenient to bring you it after the completion of the production. Many times, finally remind everyone, don’t overfit.
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