Actions

ZL11AVR: Difference between revisions

From Kamamilabs.com - Wiki

 
(One intermediate revision by one other user not shown)
Line 1: Line 1:
__jzpdf__
__jzpdf__
===== Description =====
====== Description ======
Development kit for AT90S1200/2313/ATtiny2313 microcontrollers.
Development kit for AT90S1200/2313/ATtiny2313 microcontrollers.
A board designed for building simple applications with AVR AT90S1200, AT90S2313 and ATtiny2313 microcontrollers. Its equipment, easy adaptation to personal requirements, as well as hardware compatibility with the AVT-3500 board make it suitable for both beginners and advanced users who want to work with microcontrollers or quickly build a microprocessor controller.
A board designed for building simple applications with AVR AT90S1200, AT90S2313 and ATtiny2313 microcontrollers. Its equipment, easy adaptation to personal requirements, as well as hardware compatibility with the AVT-3500 board make it suitable for both beginners and advanced users who want to work with microcontrollers or quickly build a microprocessor controller.
 
<center>
<center>
[[File:ZL11AVR.jpg|none|400px|thumb|center]]
[[File:ZL11AVR.jpg|none|400px|thumb|center]]

Latest revision as of 10:15, 2 November 2024

Description

Development kit for AT90S1200/2313/ATtiny2313 microcontrollers. A board designed for building simple applications with AVR AT90S1200, AT90S2313 and ATtiny2313 microcontrollers. Its equipment, easy adaptation to personal requirements, as well as hardware compatibility with the AVT-3500 board make it suitable for both beginners and advanced users who want to work with microcontrollers or quickly build a microprocessor controller.

Basic feature and parameters
  • ATtiny2313 microcontroller with flash memory programmed in the system - ISP (board is adapted to cooperate with microcontrollers AT90S1200, AT90S2313 and ATtiny2313),
  • ISP connector for programming microcontrollers,
  • built-in 4-digit, multiplexed LED display,
  • possibility of using the LCD display with the controller compatible with HD44780 (e.g. LCD1602),
  • microcontroller can be programmed using standard Atmel ISP programmers from Atmel and ZL20PRG programmer,
  • built-in 4-channel, 8-bit A/D converter and 8-bit D/A converter (PCF8591),
  • built-in precision reference voltage source with adjustable value,
  • possibility of powering from USB or external power supply 9...12 VDC (built-in voltage converter),
  • built-in RS232 interface (with voltage converter on MAX232 or transistors),
  • microcontroller I / O port lines available on pin connectors,
  • 2-button keyboard,
  • configuration with a few jumpers
Standard equipmend
Code Description
ZL11AVR
  • Assembled and launched module with ATtiny2313 microcontroller


Electrical schematic
Placement of elements on the board
Connecting the LCD display to the microcontroller

Assignment of LCD module interface signals to the microcontroller pins:

Output name of LCD Output number of LCD Port line name of AVR
RS 4 PB2
E 6 PB1 or PB3 (see the table below)
D4 11 PB4
D5 12 PB5
D6 13 PB6
D7 14 PB7


Selection of the signal controlling the E line of the LCD module (J3):

Position Designation on PCB Signal E controlled from line...
1-2 PB1 ...PB1
2-3 PB3 ...PB3


Connecting the LED display to the microcontroller

The way of connecting display segments to the microcontroller I/O line

Segment LED Line I/O
A PB7
B PB6
C PB5
D PB4
E PB3
F PB2
B PB1
DP (point) PB0


The method of connecting amplifiers of common display cathodes to the microcontroller I/O line

Display cathode... Line I/O
...W1 PD6
...W2 PD5
...W3 PD4
...W4 PD3


Jumper J1, J2, PWR_SEL function

J1 jumper function

Position Designation on PCB Description
1-2 DISP If PD6 controls W1 anode
2-3 I2C If PD6 is SDA line


J2 jumper function

Position Designation on PCB Description
1-2 DISP If PD5 control W2 anode
2-3 I2C If PD5 is SCL line


Selecting of power source (between USB and non-stabilized external power supply) can be made using the PWR_SEL jumper

Position Designation on PCB Description
1-2 USB Power supply from USB
2-3 EXT Power supply from external 9...12 VDC


RS232 interface

In the case of self-assembly of the board, one of two possible variants of the voltage interface should be selected. Because of reliability, an interface based on the MAX232 (U4) chip is recommended. In this case, you can not assemble elements: T1, R32 and J4.

Jumper J4, J5 and J6 are used to select the voltage interface (in case the user decides to install both of his versions on the board). The jumpers J4... 6 functions are shown below.

J4 jumper function

Position Designation on PCB Description
1-2 Off T1 base disconnected from line TxD_TTL (recommended position for MAX232 in RS232)
2-3 RS T1 base connected to line TxD_TTL (recommended position for transistor voltage converter in RS232)


J5 jumper function

Position Designation on PCB Description
1-2 MAX T7 collector disconnected from line RxD_TTL (recommended position for MAX232 in RS232)
2-3 T T7 collector connected to line RxD_TTL (recommended position for transistor voltage converter in RS232)


J6 jumper function

Position Designation on PCB Description
1-2 - Recommended position when T7 is not used as an input buffer
2-3 RxD Off Recommended position when T7 is used as an input buffer and MAX232 is used in RS232
ISP programming

The microcontroller used in the board can be programmed using the ISP (In System Programming) programmer, for example ZL20PRG. There are two ISP connectors available:

  • JP3, adapted to standard IDC10 connectors (ZL20PRG),
  • JP9, enabling the use of any programmer equipped with one-contacts connectors.

Both connectors make possible to power ISP programmers with 5V voltage.

Placement of ISP signals on JP3 connector:


C/A and A/C converters

The standard equipment of the board is PCF8591, which integrates a 4-channel A/D converter (each channel with a resolution of 8 bits) and a D/A converter with a voltage output (also with a resolution of 8 bits). Access to the converters is possible via the I2C bus. The reference voltage for the converters is generated by the U3 chip. It is regulated with using PR3 potentiometer (or PR2, depending on the version).


Reset

Microcontroller used in the ZL11AVR board can be reset by the user with a jumper placed on the pins marked as G and R. Their short circuit reset the microcontroller.