應用RC低通濾波器擴展微處理器輸出端口
摩爾定律形成一個幾乎必然的推論——下一年,微處理器將會擁有更多的功能,而軟件團隊則會提出更多創(chuàng)意。然而不幸的是,微處理器輸出端口仍保持原樣。找到一個用作測試、調試或是標準I/O口的空閑輸出端是件相當困難的事。外加簡單硬件,如圖1所示電路實現(xiàn)單端口“總線”,提供無限量的并行輸出端。
圖1 HC164外圍電路圖
帶RC低通濾波器的微處理器輸出端控制串并轉換器HC164。為了數(shù)據輸入到串并轉換器,每位都要由1-0-1的轉換組成,這種轉換數(shù)據低電平狀態(tài)長度是變化的。如果低電平狀態(tài)超出了低通濾波器的時間常數(shù),一個零移進寄存器;如果低電平狀態(tài)短,一個1就移進寄存器。這樣,時鐘信號和數(shù)據信號就合并成為一個信號。低通濾波器可以分離時鐘信號和數(shù)據信號(如圖2)。
圖2 時鐘信號與數(shù)據信號合并成一個信號
表1 whip程序輸出功能
如表1所示,一個簡單的“whip”程序實現(xiàn)8位輸出功能。假定低通濾波器時間常數(shù)為3μs,使用4MHz或更高頻率晶振時,指令時間應該為1μs或更短。程序使用My_Port端口的My_ Bit輸出的位操作。
如圖1中電路可以控制一些低速設備,例如繼電器或LCD,但是電路用于發(fā)光二極管時,HC164進行寫操作會產生令人討厭的閃爍。為解決這個問題,圖3電路使用另一款串入并出寄存器4096,這種芯片有濾波輸入功能,允許全部沒有達到臨時水準的輸出同時更新。兩個單穩(wěn)態(tài)電路提供數(shù)據和濾波信號。這個電路可以用來控制并行設備,例如基于HD44780的顯示模塊。
圖3 串行輸入/并行輸出芯片4096外圍電路圖
附英文原文:
RC lowpass filter expands microcomputer’s output port
A simple lowpass RC filter allows a single output pin of a microcontroller to expand the number of output bits.
Rex Niven, Forty Trout Electronics, Eltham, Victoria, Australia; Edited by Charles H Small and Fran Granville -- EDN, 6/21/2007
It’s almost a corollary to Moore’s Law: Next year, microcomputers will have more features, and the software team will have bigger ideas. Unfortunately, though, the number of output pins will stay the same. Finding even one spare output for diagnostics, test, or even standard I/O can be a tussle. The single-pin “bus” in Figure 1 can provide an unlimited number of parallel outputs with simple additional hardware. A microcomputer output with an RC lowpass filter controls serial-to-parallel converter HC164. To enter data into the serial-to-parallel converter, each bit consists of a one-to-zero-to-one transition, which alters the length of the low state. If the low state is longer than the lowpass filter’s time constant, a zero shifts into the register. If the low state is short, then a one shifts into the register. The clock and data signals thus combine into one signal. A lowpass filter separates the clock and data signals (Figure 2).
Listing 1, a simple “Whip” routine, performs the output function for eight bits. Assume that the RC time constant is 3 µsec, and the instruction time should be 1 µsec or less at a crystal frequency of 4 MHz or greater. The routine uses bitwise manipulation of output My_Bit of port My_Port.
Although the circuit in Figure 1 can control slow-reacting devices, such as relays or LCDs, using it with LEDs can give an annoying flicker when the HC164 is writing. To address tha t problem, the circuit in Figure 3 uses another serial-in/parallel-out register, the 4094, which has a strobe input to allow simultaneous updates of all outputs without temporary levels. A twin monostable circuit supplies the data and strobe signals. This circuit should be able to control parallel devices, such as display modules based on HD44780 devices.
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