A counting and LED decoding circuit based on CPLD is designed by VHDL.
本文采用VHDL语言设计了基于CPLD的计数及LED译码电路。
The hardware is made up of the telephone circuit, decoding circuit and controlling circuit.
硬件部分主要由电话机线路、译码电路、解码电路、控制电路等几部分组成。
The observation circuit consists of 555 infrared emitting circuit, amplifying circuit and frequency decoding circuit.
监测电路包括555红外发射电路,放大电路以及频率译码电路。
Fireresistant Hall device and SmCo rotor is used to design position and speed sensor, and the corresponding doubling circuit and decoding circuit is designed.
采用耐高温的锁定型霍尔元件和钐钴永磁转子分别构成位置与速度传感器,并设计相应的速度信号倍频电路与位置信号译码电路。
Therefore, analyzing the transmission of satellite communication and utilizing information encoding and decoding circuit are the key to reduce wrong code in transmission.
因此分析卫星信息的传送及利用信息编解码电路,是减少信息传送中出现错码的关键。
This paper introduces a decoding circuit for controlling PAN/TILT and LENS actions in monitor system, and presents the system's structure and principle of all components in detail.
本文给出了一种监控系统控制云台及电动镜头动作的解码电路,详细论述了系统的构成及各部分的原理。
The A/D decoding circuit received simulation signal form measurement port and converted the signals into data signals which displayed by 7-segment, then signals were sent to data latch.
译码电路接收测量端模拟信号,转化为7段显示的数字信号,发送到数据锁存器上。
And pulse width signal is sent to SD-M-3002 special circuit, to complete such controls as counting, decoding, pulse distribution, etc.
并将脉冲宽度信号送至SD-M - 3002专用电路完成计数、译码、脉冲分配等控制。
Circuit design of sound transduction, acquisition, decoding, judgment.
声信号采集、判决、解码电路的硬件设计。
This paper gives a circuit of correcting single error after decoding recover.
本文还具体给出了译码恢复后纠单个错的电路。
The corresponding circuit for decoding is simple to realize.
解码电路结构简单,易于实现。
The latch phase circle circuit NE567 functions as phase demodulation of audio frequency signals for realizing decoding output of the control signals to control the downhole motor operations.
应用锁相环集成电路ne567对音频信号的鉴相原理实现对控制信号的译码输出,控制井下仪器马达工作。
The circuit is of judgement intelligence, and can be made of high - precision controller if the decoding display device, ADC and DAC circuits ate added.
该逻辑电路具有判断智能,若配置译码显示器、ADC和DAC电路,就能构成高精度的控制器。
According to the specification of CID (calling identity delivery), the CID circuit is designed and realized by using ARM7 and FSK decoding chip MT88E39.
根据现有的来电显示(CID)技术规范,利用ARM7、FSK制式的来电显示解码芯片MT 88e39完成了主叫号码识别电路的设计和实现。
It also gives structure of the system and circuit of the hardware, and describes the principle of hopping code and process of the software decoding.
给出了系统结构框图及硬件电路图,并对跳码产生的原理及软件译码的过程进行了详细描述。
The system uses MT8880 (made by MITEL company) as the decoding chip of DTMF telephone and chip AT89C51 as the microcontroller, so, the circuit is simple and adaptive.
该系统用MI-TEL公司的DTMF收发器MT8880芯片作为电话双音多频信号的解码核心,用AT89C5 1单片机作主控器,电路简单灵活。
Driven by decoding output circuit, it can display showing clear and intuitive figures.
在译码显示电路输出的驱动下,显示出清晰、直观的数字符号。
Encoding instruction decoder for decoding command signals, and finally by the drive circuit to drive the implementation of circuit operation to achieve a variety of commands.
指令译码器将编码指令信号进行译码,最后由驱动电路来驱动执行电路实现各种指令的操作。
Encoding instruction decoder for decoding command signals, and finally by the drive circuit to drive the implementation of circuit operation to achieve a variety of commands.
指令译码器将编码指令信号进行译码,最后由驱动电路来驱动执行电路实现各种指令的操作。
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