Easy Z80: A very cool Z80 CP/M SBC

Since my last post about this Easy Z80 board, I installed the integrated circuits in 10MHz version. And that changes everything. At this frequency of 10 MHz, the system is very responsive and becomes very pleasant to use.

Hum... The first time I order a Zilog 10MHz CPU, SIO and CTC directly from Mouser. Brand new and all manufactured in 2020! My first contact with the Z80 was in 1987 with the µPF1+. Wow! And now, 34 years later, a real CP / M system version 2.2:

In summary, this system has a read-only storage unit including the CP / M system plus some necessary utilities. 384K writable storage space is available for downloading external applications. In addition, two communication ports are available in the 115200 Bauds version. 

Note that the RAM storage space is backed up by an external battery. The system has an extension bus but unfortunately no I / O port. It's a bit regrettable. So how to test this system?

So I decided to check if I could create the same type of app that I created earlier using a Color Maximite 2 board. This consisted in using the temperature sensor of the expansion board that I created for the Colour Maximite 2 and sending the information to a French Minitel:

It works perfectly with the Coulour Maximite 2. As the Easy Z80 board does not have an I / O port, I therefore decided to recover the temperature from Maximite and send it to the Minitel using Easy Z80. Obviously, this application may seem 'without interest', except that it allows to implement the entire development chain around CP / M.

The development system used is the Z88dk kit : https://github.com/z88dk/z88dk
Nothing more than this kit is necessary except a little knowledge of C and assembly language.

The principle of the application consists in sending the home page from the Easy Z80 SRAM disk to the Minitel, then retrieving the temperature via the serial link coming from the Maximite 2, and sending this information to the Minitel.

The only difficulty of this project is to use the second communication port of Easy Z80 in configuration 1200, E, 7, 1. This is not particularly obvious because the system is designed to operate from at 115200 Bauds. Fortunately, it is planned to be able to use the CTC present on Easy Z80 to generate the clock to the UARTS.

It is therefore necessary to connect the output of channel 2 of the CTC to the channel 2 clock of the SIO. This connection is available on the printed circuit board. It is enough to connect it with a small soldered wire after having cut the original connection.

Once this intervention is done, it is necessary to write a few lines of assembler to configure the CTC and the SIO. Do not forget to remove the RS232 converter U8 from the board because Minitel uses TTL signals.

Finally, the source code is simple and easy to understand:

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// // Ressources : // // https://www.seasip.info/Cpm/bdos.html // https://github.com/wwarthen/RomWBW // https://github.com/z88dk/z88dk/wiki/Platform---CPM // http://www.z80.info/zip/um0081.pdf // https://pila.fr/wordpress/?p=361 // https://www.goto10.fr/minitel/specifications/stum1b.pdf // // Compilation : zcc +cpm -lm -o main.com main.c // #include <stdio.h> int main() { FILE *fp; int Data; unsigned char Index, Misc ; // Start application printf("Starting the Minitel application\n"); // Configure the SIO chanel B for 7, E, 1 & NOT CTS ctrl #asm PUSH AF LD A, 0x33 ; PTR WR3 OUT(0x83), A ; ACESS WR3 LD A, 0x41 ; 7 bits RX, NO CTS, RX enable OUT(0x83), A ; WRITE WR3 LD A, 0x34 ; PTR WR4 OUT(0x83), A ; ACESS WR4 LD A, 0x47 ; E parity, 1 stop OUT(0x83), A ; WRITE WR4 LD A, 0x35 ; PTR WR5 OUT(0x83), A ; ACESS WR5 LD A, 0x28 ; 7 bits TX OUT(0x83), A ; WRITE WR5 POP AF #endasm // Configure the Com port n#2 baudrate (CTC) at 1200 for the Minitel #asm PUSH AF LD A, 0x47 ; Counter mode OUT(0x89), A ; Control Word LD A, 0x60 ; Counter value for 1200 bauds OUT(0x89), A ; Counter Word POP AF #endasm // Opening the Minitel Home page fp = fopen("Home.dat", "r"); if (fp == NULL) { printf("Error opening Home.dat"); return 0; } // Send the Home page to the Minitel Data = fgetc(fp); while ( Data != EOF ) { bdos(4, Data ); Data = fgetc(fp); } // Infinite loop while (1) { // Print the 3 char for the display coordinate + // the 5 char from the Colour Maximite II temperature // formatted as : 12.55 // So, 8 char to relay for ( Index = 8; Index; Index-- ) { Data = bdos(3, Misc); bdos(4, Data ); } } // Close the Home page file fclose(fp); // End main return 0; }

Note also that CP / M offers 'services' in the form of a generic call by providing some information. This interface is provided in the form of the 'bdos ()' function and is used here to communicate with the communication port # 2.

And the result:

Conclusion: this CP / M board is really very pleasant to use and program with the Z88dk kit. It has an RC2014 type connector for the connection of various extensions. It could be interesting to install a PPI8255 or a Zilog PIO there.

RESSOURCES :

• Anyone can build such a board on their own. The author, Sergey Kiselev, offers a Git repository for this system.
• Wayne Warthen is the author of the 'romBWB' system that I installed on this Easy Z80 board.
• Z88dk is available at : https://github.com/z88dk

CP/M 80 in 2021?

Yes, what reason would there be to use CP/M in 2021? The reason could be, because...!

There can be a multitude of reasons why we might be tempted to discover something other than the boring soup we are served all day long, the digital world : in fact 'shits' for everyone, and huge profits for a few!

And why not take ownership of the tool and have it do something else? Obviously, you probably won't be able to use these simple systems for typing your new bestseller, listening to music, send the latest information of your exciting life to the whole earth or watching series. But there might be more things you can do that you can't do with your MAC or PC.

For that, a system must be simple and easy to use while being inexpensive. At the beginnings of the democratization of computing, in the early 80s, one of the flagship microprocessors was the Z80 in normal (2,5MHz) version or 'A' (4MHz) version and the dream version 'B' (6MHz). 

At that time, there was an operating system for this type of processor, the CP/M, called CP/M 80 when a version was developed for the first IBM PC and named CP/M 86, which later became the Microsoft DOS.

At the beginning of the 90s, I had recovered a CP/M 80 machine from a company which had switched to PC/DOS. Unfortunately, I no longer own this machine but this is what it looked like:

Wikipedia

Wikipedia

This type of equipment was sold for around $ 2,000 in the early 1980s, or something like $ 6,000 today. All that for 64K or 128K of RAM, a floppy drive of a few tens of Kbytes and a processor at 2MHz, possibly 4MHz : fantastic!

An operating system offers all the tools necessary to use a computer and, above all, allows a program to be loaded into RAM memory from storage memory and then to be executed, basically. 

The question is: is it still possible to get a CP/M version for Z80 and is it possible to adapt it to a preferably new machine with more capacities?

Good news, the answer is yes! More interesting, there is even a more general system which allows to launch CP/M but not only, and which is compatible with a certain number of systems based on Z80 or Z180 : the RomWBW from Wayne Warthen.

And so .... It only remains to find a hardware on which to implement this system. And precisely, while browsing the distribution of RomBWB I discovered the compatibility provided for a board named 'Easy Z80' designed by Sergey Kiselev :

https://github.com/skiselev/easy_z80

As this project is open source, I therefore made the printed circuit board in several copies and assembled one using components I own. My tests were carried out with a 4MHz oscillator because I do not have Zilog components certified at 10MHz (the CTC & SIO). 

I assumed this should still be fine because the SIO (UART) has its own clock independent of that of the processor. Obviously, if the operating system integrates calibration loops, the times provided will not be correct. But hey, for a first test this should not pose a problem ...

Indeed, it works :

So far I haven't pushed the tests any further. The characteristics of this system are very interesting. It is designed to operate at a frequency of 10MHz. Not even imaginable at the time. Has 512Kb of backed up SRAM of which 384Kb is reserved for drive A. Two serial ports are available as well as an RC2014 compatible expansion port. All for less than $ 100 when assembled.

As a first step, it is an ideal system to get acquainted with CP/M. The only small lack is the absence of inputs / outputs. But this can easily be offered later thanks to the extension port. In development mode it is necessary to connect this system to a terminal or a PC / MAC with terminal emulator. But simple and inexpensive solutions exist to allow the connection of a keyboard and a VGA screen. I intend to test this type of solution soon, which would make this system completely autonomous in the same way as the Color Maximite II.