Simple AM Radio Reciever Circuit Using TA7642 IC

31,168 views

A basic AM radio circuit based on TA7642 IC is demonstrated in this DIY instructional project in detail. This circuit effectively ‎transmits sound signals to long-distance areas in due time. Moreover, the lower frequencies ‎of the band we use for AM signals make incredibly large wavelengths.

Furthermore, the core of this AM radio circuit is the TA7642. Hence, this is a solitary chip AM Radio IC with ‎‎Automatic Gain Control (AGC) features. ‎

TA7642 IC

Additionally, this TA7642 is significant for low voltage portable Radios. ‎It is accessible in the package of UTC7642 is TO-92. Thus, the featuring highlights of this IC have a low ‎operating voltage, a very nominal input voltage (Vcc) which is around 1.3V, and a low Quiescent Current ICCO ‎which is 0.2mA and requires a few other external components for its operation.‎

Hardware Components

The following components are required to make AM Reciever Circuit

S.NoComponentsValueQty
1ICTA76421
2Headphones1
3Inductor55 turns 1
4Trim Capacitor150 pF1
5Resistor100kΩ, 1kΩ1, 1
6Battery1.5V1
7Ceramic Capacitor0.1uF, 10nF1, 1

TA7642 Pinout

For a detailed description of pinout, dimension features, and specifications download the datasheet of TA7642

AM Reciever Circuit

am-radio-receiver-Circuit-Diagram-Schematic

Circuit Operation

As shown above, the circuit referenced here is a basic AM Radio. In this circuit, the inductor L1 has a total of 55 turns which is balanced against the 1.5V Vcc. Moreover, the coil is made up of 0.315mm enameled copper wire. In addition, this is wound ‎on a 10mm x 100mm long ferrite rod. You can likewise explore different AM radio coils which are economical and easily accessible.‎

Utilizing this antenna will likewise build performance enormously. The ‎circuit works with a 1.5-volt battery. In order to get better results, utilize crystal headphones. Moreover, if you need extra sound amplification to drive a speaker. Then, it is recommended to utilize different circuits of AM receivers in the Radio and RF ‎circuits section.

Applications and Uses

  • AM transmitters are less complex and have low bandwidth
  • It can likewise create large wavelengths
  • The AM waves can travel a longer distance explicitly