CN102360075A - Wireless sonar transmitter - Google Patents

Abstract

The invention relates to a wireless sonar transmitter, belonging to the field of sonar measuring devices. The wireless sonar transmitter is composed of a sonar induction signal processing circuit and a sonar control signal modulation transmission circuit, wherein the sonar induction signal processing circuit automatically transmits acoustic waves and automatically senses an acoustic wave back signal; after being subjected to digital processing, the signal is transmitted to the sonar control signal modulation transmission circuit; and the sonar signal is transmitted through the functional processing by the control signal modulation transmission circuit, thus realizing wireless remote transmission. The wireless sonar transmitter provided by the invention is convenient in installation, long in transmission distance, and high in transmission signal precision, and can be fixed at one place to be used for a long time according to the actual use condition; after the primary amplification is increased, the transmission distance can be over 100 meters; and the wireless sonar transmitter has high cost performance and wide application range, and is very worthy of popularization.

Description

Wireless sonar transmitter

Technical field

The present invention relates to sonar detection device field, at length say it is a kind of wireless sonar transmitter.

Background technology

As everyone knows: along with science and technology development, people obtain the desire of resource from the ocean increasing.Activities such as sea farming, marine fishing, habitata, sea transport, more and more frequent, marine economy has become the pith of national economic development.In being engaged in marine economy, sonoprobe is to use maximum instruments.Quality and technology content all are to lean on import, domestic the considerably less of sonar detection research of being engaged in than higher sonoprobe basically.The sensor probe part all is to adopt the wire signal transmission mode in the present sonar detection apparatus, in use has many constant: the one, and during distance, transmission line is long also heavier; The 2nd,, water impact transmission line in the use causes sensor to swing, and influences detection accuracy; The 3rd,, transmission line rocks in water, also can influence the shoal of fish, finally influences fishing efficiency.Under the situation that does not influence detection accuracy, how to solve the signal long-distance transmissions problem that sonoprobe detects, demand the problem that will solve in the marine economy urgently with regard to having become.

Summary of the invention

The object of the invention just is to overcome the deficiency that existing sonoprobe exists, and a kind of easy for installation, long transmission distance, wireless sonar transmitter that transmission precision is high are provided.

The present invention adopts following technical solution: a kind of wireless sonar transmitter; Form by sonar induced signal treatment circuit and sonar control signal modulation transmitter; It is characterized in that: sonar induced signal treatment circuit is made up of MB7062 sound wave transducing chip U1, HS108N intelligent chip U2, resistance R 1, R3, R4, capacitor C 7 and battery BT1; The 1st pin of MB7062 sound wave transducing chip U1 links to each other with the 7th pin of HS108N intelligent chip U2, and MB7062 sound wave transducing chip U1 the 2nd pin and the 3rd pin are unsettled, and MB7062 sound wave transducing chip U1 the 4th pin links to each other with the 5th pin of HS108N intelligent chip U2; MB7062 sound wave transducing chip U1 the 5th pin links to each other with the 6th pin of HS108N intelligent chip U2; MB7062 sound wave transducing chip U1 the 6th pin links to each other with the positive source of battery BT1, and MB7062 sound wave transducing chip U1 the 7th pin links to each other with the power cathode of battery BT1, and a pin of resistance R 1 links to each other with the positive source of battery BT1; Another pin of resistance R 1 links to each other with the 1st pin of MB7062 sound wave transducing chip U1; One pin of resistance R 3 links to each other with the positive source of battery BT1, and another pin of resistance R 3 links to each other with the 5th pin of MB7062 sound wave transducing chip U1, and a pin of resistance R 4 links to each other with the positive source of battery BT1; Another pin of resistance R 4 links to each other with the 4th pin of MB7062 sound wave transducing chip U1; One pin of capacitor C 7 links to each other with the positive source of battery BT1, and another pin of capacitor C 7 links to each other with the power cathode of battery BT1, and the 1st pin of HS108N intelligent chip U2 links to each other with the positive source of battery BT1; The 8th pin of HS108N intelligent chip U2 links to each other with the power cathode of battery BT1; HS108N intelligent chip U2 the 2nd pin links to each other with the 7th pin of CC1101 radio transmitting and receiving chip U3, and HS108N intelligent chip U2 the 3rd pin links to each other with the 20th pin of CC1101 radio transmitting and receiving chip U3, and HS108N intelligent chip U2 the 4th pin links to each other with the 1st pin of CC1101 radio transmitting and receiving chip U3;

Sonar control signal modulation transmitter is made up of CC1101 radio transmitting and receiving chip U3, resistance R 2, capacitor C 1, C2, C3, C4, C5, C6, C8, C9, C10, inductance L 1, L2, L3, L4 and crystal oscillator CY1; The 4th pin of CC1101 radio transmitting and receiving chip U3,9 pin, 11 pin, 14 pin, 15 pin, 18 pin all link to each other with the positive source of battery BT1; The 16th pin of CC1101 radio transmitting and receiving chip U3 all links to each other with the power cathode of battery BT1 with 19 pin; The 7th pin of CC1101 radio transmitting and receiving chip U3 links to each other with the 2nd pin of HS108N intelligent chip U2, and the 20th pin of CC1101 radio transmitting and receiving chip U3 links to each other with the 3rd pin of HS108N intelligent chip U2, and the 1st pin of CC1101 radio transmitting and receiving chip U3 links to each other with the 4th pin of HS108N intelligent chip U2; One pin of capacitor C 1 links to each other with the 5th pin of CC1101 radio transmitting and receiving chip U3; Another pin of capacitor C 1 links to each other with the power cathode of battery BT1, and a pin of resistance R 2 links to each other with the 17th pin of CC1101 radio transmitting and receiving chip U3, and another pin of resistance R 2 links to each other with the power cathode of battery BT1; One pin of capacitor C 8 links to each other with the 8th pin of CC1101 radio transmitting and receiving chip U3; Another pin of capacitor C 8 links to each other with the power cathode of battery BT1, and a pin of capacitor C 9 links to each other with the 10th pin of CC1101 radio transmitting and receiving chip U3, and another pin of capacitor C 9 links to each other with the power cathode of battery BT1; The 8th pin of the pin CC1101 radio transmitting and receiving chip U3 of crystal oscillator CY1 links to each other; Another pin of crystal oscillator CY1 links to each other with the 10th pin of CC1101 radio transmitting and receiving chip U3, and the 13rd pin of CC1101 radio transmitting and receiving chip U3 links to each other with a pin of inductance L 2, and another pin of inductance L 2 links to each other with a pin of inductance L 3; Another pin of inductance L 3 links to each other with a pin of inductance L 4; Another pin of inductance L 4 links to each other with a pin of capacitor C 6, and another pin of capacitor C 6 links to each other with antenna X1, and a pin of inductance L 1 links to each other with the 12nd pin of CC1101 radio transmitting and receiving chip U3; Another pin of inductance L 1 links to each other with a pin of capacitor C 10; Another pin of capacitor C 10 links to each other with the power cathode of battery BT1, and a pin of capacitor C 2 links to each other with the 13rd pin of CC1101 radio transmitting and receiving chip U3, and another pin of capacitor C 2 links to each other with the power cathode of battery BT1; One pin of capacitor C 3 links to each other with the 12nd pin of CC1101 radio transmitting and receiving chip U3; Another pin of capacitor C 3 links to each other with the common port of inductance L 2 with inductance L 3, and a pin of capacitor C 4 links to each other with the common port of inductance L 2 with inductance L 3, and another pin of capacitor C 4 links to each other with the power cathode of battery BT1; One pin of capacitor C 5 links to each other with the common port of inductance L 3 with inductance L 4, and another pin of capacitor C 5 links to each other with the power cathode of battery BT1.

The invention has the beneficial effects as follows, easy for installation, long transmission distance, the transmission signals precision is high, can use the transmitter extended immobilization a position according to actual operating position.After increasing the one-level amplification again, can reach more than 100 meters in distance.This product price ratio is high, and usable range is wide, but generalization is strong.

 

Description of drawings

Below in conjunction with accompanying drawing and embodiment the present invention is further specified.

Fig. 1 is circuit theory diagrams of the present invention.

U1. MB7062 sound wave transducing chip among the figure, U2. HS108N intelligent chip, U3. CC1101 radio transmitting and receiving chip, R1 ~ R4. resistance, C1 ~ C10. electric capacity, L1 ~ L4. inductance, CY1. crystal oscillator, BT1. battery, X1. antenna.

 

Embodiment

Below in conjunction with accompanying drawing and specific embodiment the present invention is described further, to help understanding content of the present invention.

As shown in Figure 1, the present invention is made up of sonar induced signal treatment circuit and sonar control signal modulation transmitter.Sonar induced signal treatment circuit is launched sound wave and automatic sensing sound wave back-signalling automatically; And after the signal digitalized processing; Be transferred to sonar control signal modulation transmitter; Sonar signal is launched after control signal modulation transmitter functional processing, thereby realizes the wireless long-distance transmissions of sonar signal.

Sound wave induced signal treatment circuit is made up of MB7062 sound wave transducing chip U1, HS108N intelligent chip U2, resistance R 1, R3, R4, capacitor C 7 and battery BT1.The 1st pin of MB7062 sound wave transducing chip U1 links to each other with the 7th pin of HS108N intelligent chip U2; MB7062 sound wave transducing chip U1 the 2nd pin and the 3rd pin are unsettled; MB7062 sound wave transducing chip U1 the 4th pin links to each other with the 5th pin of HS108N intelligent chip U2, and MB7062 sound wave transducing chip U1 the 5th pin links to each other with the 6th pin of HS108N intelligent chip U2, and MB7062 sound wave transducing chip U1 the 6th pin links to each other with the positive source of battery BT1; MB7062 sound wave transducing chip U1 the 7th pin links to each other with the power cathode of battery BT1; One pin of resistance R 1 links to each other with the positive source of battery BT1, and another pin of resistance R 1 links to each other with the 1st pin of MB7062 sound wave transducing chip U1, and a pin of resistance R 3 links to each other with the positive source of battery BT1; Another pin of resistance R 3 links to each other with the 5th pin of MB7062 sound wave transducing chip U1; One pin of resistance R 4 links to each other with the positive source of battery BT1, and another pin of resistance R 4 links to each other with the 4th pin of MB7062 sound wave transducing chip U1, and a pin of capacitor C 7 links to each other with the positive source of battery BT1; Another pin of capacitor C 7 links to each other with the power cathode of battery BT1; The 1st pin of HS108N intelligent chip U2 links to each other with the positive source of battery BT1, and the 8th pin of HS108N intelligent chip U2 links to each other with the power cathode of battery BT1, and HS108N intelligent chip U2 the 2nd pin links to each other with the 7th pin of CC1101 radio transmitting and receiving chip U3; HS108N intelligent chip U2 the 3rd pin links to each other with the 20th pin of CC1101 radio transmitting and receiving chip U3, and HS108N intelligent chip U2 the 4th pin links to each other with the 1st pin of CC1101 radio transmitting and receiving chip U3.

The 7th pin of HS108N intelligent chip U2, during the output high level, MB7062 sound wave transducing chip U1 just starts working.MB7062 sound wave transducing chip U1 is responsible for sending the sonar ripple, detects the sonar ripple that returns, and is responsible for after detecting time signal arrangement digitizing, being sent to HS108N intelligent chip U2 with serial mode.HS108N intelligent chip U2 is detected sonar signal, encrypts according to certain rules, handles through digital coding again, convert time signal to digital signal corresponding after, send to sonar control signal modulation transmitter according to specific rule.

Sonar control signal modulation transmitter is made up of CC1101 radio transmitting and receiving chip U3, resistance R 2, capacitor C 1, C2, C3, C4, C5, C6, C8, C9, C10, inductance L 1, L2, L3, L4 and crystal oscillator CY1; The 4th pin of CC1101 radio transmitting and receiving chip U3,9 pin, 11 pin, 14 pin, 15 pin, 18 pin all link to each other with the positive source of battery BT1; The 16th pin of CC1101 radio transmitting and receiving chip U3 all links to each other with the power cathode of battery BT1 with 19 pin; The 7th pin of CC1101 radio transmitting and receiving chip U3 links to each other with the 2nd pin of HS108N intelligent chip U2, and the 20th pin of CC1101 radio transmitting and receiving chip U3 links to each other with the 3rd pin of HS108N intelligent chip U2, and the 1st pin of CC1101 radio transmitting and receiving chip U3 links to each other with the 4th pin of HS108N intelligent chip U2; One pin of capacitor C 1 links to each other with the 5th pin of CC1101 radio transmitting and receiving chip U3; Another pin of capacitor C 1 links to each other with the power cathode of battery BT1, and a pin of resistance R 2 links to each other with the 17th pin of CC1101 radio transmitting and receiving chip U3, and another pin of resistance R 2 links to each other with the power cathode of battery BT1; One pin of capacitor C 8 links to each other with the 8th pin of CC1101 radio transmitting and receiving chip U3; Another pin of capacitor C 8 links to each other with the power cathode of battery BT1, and a pin of capacitor C 9 links to each other with the 10th pin of CC1101 radio transmitting and receiving chip U3, and another pin of capacitor C 9 links to each other with the power cathode of battery BT1; The 8th pin of the pin CC1101 radio transmitting and receiving chip U3 of crystal oscillator CY1 links to each other; Another pin of crystal oscillator CY1 links to each other with the 10th pin of CC1101 radio transmitting and receiving chip U3, and the 13rd pin of CC1101 radio transmitting and receiving chip U3 links to each other with a pin of inductance L 2, and another pin of inductance L 2 links to each other with a pin of inductance L 3; Another pin of inductance L 3 links to each other with a pin of inductance L 4; Another pin of inductance L 4 links to each other with a pin of capacitor C 6, and another pin of capacitor C 6 links to each other with antenna X1, and a pin of inductance L 1 links to each other with the 12nd pin of CC1101 radio transmitting and receiving chip U3; Another pin of inductance L 1 links to each other with a pin of capacitor C 10; Another pin of capacitor C 10 links to each other with the power cathode of battery BT1, and a pin of capacitor C 2 links to each other with the 13rd pin of CC1101 radio transmitting and receiving chip U3, and another pin of capacitor C 2 links to each other with the power cathode of battery BT1; One pin of capacitor C 3 links to each other with the 12nd pin of CC1101 radio transmitting and receiving chip U3; Another pin of capacitor C 3 links to each other with the common port of inductance L 2 with inductance L 3, and a pin of capacitor C 4 links to each other with the common port of inductance L 2 with inductance L 3, and another pin of capacitor C 4 links to each other with the power cathode of battery BT1; One pin of capacitor C 5 links to each other with the common port of inductance L 3 with inductance L 4, and another pin of capacitor C 5 links to each other with the power cathode of battery BT1.

Inductance L 1, L2 and capacitor C 2, C3, C4 Compositional balance converter.Resistance R 2 is biasing resistors, is used for being provided with an accurate bias current.C8, C9 are the capacitive loads of crystal oscillator CY1, and the 7th pin of CC1101 radio transmitting and receiving chip U3 is that chip is selected useful signal, and CC1101 radio transmitting and receiving chip U3 is selected when this pin is low level.

Claims (1)

1. wireless sonar transmitter; Form by sonar induced signal treatment circuit and sonar control signal modulation transmitter; It is characterized in that: sonar induced signal treatment circuit is made up of MB7062 sound wave transducing chip U1, HS108N intelligent chip U2, resistance R 1, R3, R4, capacitor C 7 and battery BT1; The 1st pin of MB7062 sound wave transducing chip U1 links to each other with the 7th pin of HS108N intelligent chip U2, and MB7062 sound wave transducing chip U1 the 2nd pin and the 3rd pin are unsettled, and MB7062 sound wave transducing chip U1 the 4th pin links to each other with the 5th pin of HS108N intelligent chip U2; MB7062 sound wave transducing chip U1 the 5th pin links to each other with the 6th pin of HS108N intelligent chip U2; MB7062 sound wave transducing chip U1 the 6th pin links to each other with the positive source of battery BT1, and MB7062 sound wave transducing chip U1 the 7th pin links to each other with the power cathode of battery BT1, and a pin of resistance R 1 links to each other with the positive source of battery BT1; Another pin of resistance R 1 links to each other with the 1st pin of MB7062 sound wave transducing chip U1; One pin of resistance R 3 links to each other with the positive source of battery BT1, and another pin of resistance R 3 links to each other with the 5th pin of MB7062 sound wave transducing chip U1, and a pin of resistance R 4 links to each other with the positive source of battery BT1; Another pin of resistance R 4 links to each other with the 4th pin of MB7062 sound wave transducing chip U1; One pin of capacitor C 7 links to each other with the positive source of battery BT1, and another pin of capacitor C 7 links to each other with the power cathode of battery BT1, and the 1st pin of HS108N intelligent chip U2 links to each other with the positive source of battery BT1; The 8th pin of HS108N intelligent chip U2 links to each other with the power cathode of battery BT1; HS108N intelligent chip U2 the 2nd pin links to each other with the 7th pin of CC1101 radio transmitting and receiving chip U3, and HS108N intelligent chip U2 the 3rd pin links to each other with the 20th pin of CC1101 radio transmitting and receiving chip U3, and HS108N intelligent chip U2 the 4th pin links to each other with the 1st pin of CC1101 radio transmitting and receiving chip U3;

Sonar control signal modulation transmitter is made up of CC1101 radio transmitting and receiving chip U3, resistance R 2, capacitor C 1, C2, C3, C4, C5, C6, C8, C9, C10, inductance L 1, L2, L3, L4 and crystal oscillator CY1; The 4th pin of CC1101 radio transmitting and receiving chip U3,9 pin, 11 pin, 14 pin, 15 pin, 18 pin all link to each other with the positive source of battery BT1; The 16th pin of CC1101 radio transmitting and receiving chip U3 all links to each other with the power cathode of battery BT1 with 19 pin; The 7th pin of CC1101 radio transmitting and receiving chip U3 links to each other with the 2nd pin of HS108N intelligent chip U2, and the 20th pin of CC1101 radio transmitting and receiving chip U3 links to each other with the 3rd pin of HS108N intelligent chip U2, and the 1st pin of CC1101 radio transmitting and receiving chip U3 links to each other with the 4th pin of HS108N intelligent chip U2; One pin of capacitor C 1 links to each other with the 5th pin of CC1101 radio transmitting and receiving chip U3; Another pin of capacitor C 1 links to each other with the power cathode of battery BT1, and a pin of resistance R 2 links to each other with the 17th pin of CC1101 radio transmitting and receiving chip U3, and another pin of resistance R 2 links to each other with the power cathode of battery BT1; One pin of capacitor C 8 links to each other with the 8th pin of CC1101 radio transmitting and receiving chip U3; Another pin of capacitor C 8 links to each other with the power cathode of battery BT1, and a pin of capacitor C 9 links to each other with the 10th pin of CC1101 radio transmitting and receiving chip U3, and another pin of capacitor C 9 links to each other with the power cathode of battery BT1; The 8th pin of the pin CC1101 radio transmitting and receiving chip U3 of crystal oscillator CY1 links to each other; Another pin of crystal oscillator CY1 links to each other with the 10th pin of CC1101 radio transmitting and receiving chip U3, and the 13rd pin of CC1101 radio transmitting and receiving chip U3 links to each other with a pin of inductance L 2, and another pin of inductance L 2 links to each other with a pin of inductance L 3; Another pin of inductance L 3 links to each other with a pin of inductance L 4; Another pin of inductance L 4 links to each other with a pin of capacitor C 6, and another pin of capacitor C 6 links to each other with antenna X1, and a pin of inductance L 1 links to each other with the 12nd pin of CC1101 radio transmitting and receiving chip U3; Another pin of inductance L 1 links to each other with a pin of capacitor C 10; Another pin of capacitor C 10 links to each other with the power cathode of battery BT1, and a pin of capacitor C 2 links to each other with the 13rd pin of CC1101 radio transmitting and receiving chip U3, and another pin of capacitor C 2 links to each other with the power cathode of battery BT1; One pin of capacitor C 3 links to each other with the 12nd pin of CC1101 radio transmitting and receiving chip U3; Another pin of capacitor C 3 links to each other with the common port of inductance L 2 with inductance L 3, and a pin of capacitor C 4 links to each other with the common port of inductance L 2 with inductance L 3, and another pin of capacitor C 4 links to each other with the power cathode of battery BT1; One pin of capacitor C 5 links to each other with the common port of inductance L 3 with inductance L 4, and another pin of capacitor C 5 links to each other with the power cathode of battery BT1.

Images