Research on temperature acquisition system of printing machine oven based on wireless Sensor network

Aiming at the problems such as limited transmission distance of traditional temperature data, complex wiring and aging line, ZigBee wireless network is introduced into the temperature acquisition system of the intaglio printing machine oven, which makes the whole system easy to operate and simple, and greatly improves the transmission distance of temperature signal. The composition of the temperature monitoring system and the hardware circuit of the ZigBee master node are described, including DC 5 V power supply circuit and USB interface power supply circuit, the connection circuit between the RADIO frequency board and the backboard, to realize the construction of the network and the wireless reception of temperature data. To realize the construction of the network and wireless reception of temperature data. It combines ZigBee wireless communication technology to complete real-time transmission of multi-point temperature data, realize real-time LCD display of multi-point temperature data collected by DS18B20, and realize ZigBee networking function based on ZigBee protocol stack.

Rancang Bangun Alat Pendeteksi Medan Listrik Portable untuk Keamanan Manusia

Medan listrik yang ditimbulkan oleh peralatan listrik memiliki dampak buruk bagi manusia, medan listrik tidak dapat dilihat dengan mata manusia namun dampaknya dapat dirasakan oleh tubuh manusia, untuk mengetahui adanya medan listrik dan jarak terjauh medan listrik pada suatu peralatan listrik, maka diperlukan alat pendeteksi medan listrik. Metode yang digunakan Pada proyek akhir ini adalah menggunakan IC CMOS CD 4093 dan sistem mikrokontroller AtMega 328 P. Adapun langkah-langkah yang digunakan yaitu identifikasi kebutuhan alat, perancangan perangkat keras, perancangan perangkat lunak, dan pembagian data. Perencanaan sistem ini terdiri dari 4 bagian : sistem sensor, sistem pengolah data, sistem penampil data dan rangkaian Catu Daya.Sistem sensor menggunakan IC CMOS CD 40493 yang berfungi untuk mendeteksi keberadaan medan listrik pada peralatan yang menggunakan sumber listrik. Sistem pengolah data berupa sistem minimum menggunakan mikrokontroller Atmega 328 P untuk mengolah data yang dihasilkan oleh IC CMOS CD 4093, kemudian bagian berikutnya adalah penampil data berupa LCD (Liquid Cristal Display) dengan type modul M1632 LCD, berfungsi untuk menampikan data yang ditangkap oleh sensor dan kemudian diolah pada sistem mikrokontroller Atmega 328 P kemudian ditampilkan pada LCD, Bagian terakhir yaitu rangkaian Power Supply, bagian ini sebagai penyedia catu daya agar rangkaian dapat bekerja semestinya.The electric field generated by electrical equipment has a bad impact on humans, the electric field cannot be seen with the human eye but its impact can be felt by the human body, to determine the presence of an electric field and the farthest distance from the electric field in an electrical equipment, an electric field detector is needed. . The method used in this final project is to use IC CMOS CD 4093 and AtMega 328 P microcontroller system. The steps used are identification of equipment requirements, hardware design, software design, and data sharing. This system planning consists of 4 parts: sensor system, data processing system, data display system and power supply circuit. The sensor system uses the CMOS CD 40493 IC which functions to detect the presence of an electric field in equipment that uses a power source. The data processing system in the form of a minimum system uses an Atmega 328 P microcontroller to process the data generated by the IC CMOS CD 4093, then the next part is a data viewer in the form of an LCD (Liquid Cristal Display) with the M1632 LCD module type, functions to display data captured by sensors and then processed on the Atmega 328 P microcontroller system then displayed on the LCD, the last part is the Power Supply circuit, this section serves as a power supply provider so that the circuit can work properly.

Rancangbangun Catu Daya Linier 5V, 12V dengan ZCD dan PWM

Penelitian ini dilakukan untuk mendapatkan sebuah prototype rangkaian catu daya linier yang dilengkapi dengan rangkaian zero crossing detector dan pembangkit PWM yang dapat digunakan sebagai pelengkap modul praktikum elektronika daya, terutama pada percobaan pengendaliaaan beban ac dengan TRIAC secara digital. Pemicuan dapat dilakukan berdasar sudut fasa, yang memerlukan pulsa ZCD dan pemicuan on-off yang memerlukan PWM. Catu daya linier dipilih dalam rancangbangun ini dengan alasan kemudahan perhitungan rancangan dan mempunyai gangguaninterferensi frekuensi radio yang rendah. Tegangan output catu daya linier adalah 5V dan 12V dengan arus output hingga 1.000 mA. Komponen utama rangkaian catu daya linier adalah regulator IC type LM78XX dengan penguat arus transistor type pnp. Pembangkitan PWM dilakukan dengan kendali ATmega328. Frekuensi output dapat dipilih dari 1dan 2 Hz serta variasi duty cycle, 0,2, 05, 07 dan 1. Pemilihan nilai frekuensi dan duty cycle dilakukan dengan rotary encoder switch. Pulsa output rangkaian ZCD dan PWM dirancang untuk standar TTL. Berdasar peruntukannya maka perangkat catu daya linier ini dilengkapi dengan pengaman hubung singkat pada jalur keluarannya. This research was conducted to obtain a linear power supply circuit prototype equipped with a zero crossing detector circuit and a PWM generator that can be used as a complement to the power electronics practicum module, especially in the experiment of digitally control loads with a TRIAC. Triggering can be done based on phase angle, which requires ZCD pulses and on-off triggering which requires PWM. The linear power supply was chosen in this design for the reason that it is easy to calculate the design and has low radio frequency interferency. The output voltage of the linear power supply is 5V and 12V with an output current of up to 1,000 mA. The main component of the linear power supply circuit is the LM78XX type regulator IC with a PNP type transistor current amplifier. PWM generation is carried out by controlling the ATmega328.The output frequency can be selected from 1 and 2 Hz as well as variations of the duty cycle, 0.2, 05, 07 and 1. The selection of the frequency and duty cycle values ​​is done by a rotary encoder switch. The output pulses of the ZCD and PWM circuits are designed for the TTL standard. Based on its designation, this linear power supply device is equipped with a safety short circuit on its output line.

Power flows in multi-junction power supply circuits

The article discusses a methodology that allows for an accurate calculation of the parameters of electrical equipment from the point of view of optimizing the power supply system. Taking into account the characteristics of transients processes makes it possible to select equipment in maximum load modes. Modeling of power flows caused by changes in the load of consumers is carried out on the example of calculating the power supply circuit of five junctions. It is shown that it is possible to change the direction of flows of transmitted electric power at certain ratios of parameters in individual elements of the circuit. Purpose of research: to show the possibility of changing the picture of the transmitted capacities by the elements of the power supply system, depending on consumer loads.

Diagnostic complex «Bort»

The article deals with the issue of checking the operability of electrical equipment of armored vehicles. This issue is relevant, due to the need to maintain constant combat readiness of armored vehicles. The system is saturated with automated and automatic systems for various purposes, while there is a problem of rapid troubleshooting in the operation of devices and electrical equipment systems. Existing diagnostic systems allow testing through diagnostic connectors or with a break in the supply circuit through adapters. The diagnostic complex discussed in the article will allow you to check the operation of consumers, blocks without disconnecting connectors