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added device n30.

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This commit is contained in:
Martin Preuss
2026-03-01 01:09:04 +01:00
parent bdd2d3bdc6
commit 69420d9c7d
11 changed files with 811 additions and 0 deletions
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1
avr/devices/0BUILD
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n27
n28
n29
n30
r06
s03
t03

3
avr/devices/n30/.gitignore vendored Normal file
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*.eep.hex
*.obj
n30-enclosure.stl

18
avr/devices/n30/0BUILD Normal file
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<?xml?>
<gwbuild>
<subdirs>
boot
main
</subdirs>
<extradist>
defs.asm
eeprom.asm
README
</extradist>
</gwbuild>

18
avr/devices/n30/README Normal file
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N25
===
- Role: LED strip controller
- MCU: AtTiny84
- Connection: RJ45
- Predecessor: N22, N16
- UART: uart_bitbang2
- Periphery:
- LED strip connection (SK6812)
- OWI interface
- DS18B20 temperature sensor
- Apps:
- NETWORK: Basic network functionality (address setup etc.)
- REPORTSENSORS: report sensor data from temperature sensor etc.
- STATS : periodically send stats data
- MA_LIGHT : motion activated light

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avr/devices/n30/boot/0BUILD Normal file
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<?xml?>
<gwbuild>
<target type="AvrHexFile" name="n30_boot" >
<includes type="avrasm" >
-I $(builddir)
-I $(srcdir)
-I $(topsrcdir)/avr
-I $(topbuilddir)/avr
</includes>
<sources type="avrasm" >
boot.asm
</sources>
</target>
<subdirs>
</subdirs>
<extradist>
</extradist>
</gwbuild>

130
avr/devices/n30/boot/boot.asm Normal file
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; ***************************************************************************
; Source file for base system node on AtTiny 84
;
; This is for the maintenance system (i.e. the flash loader).
;
; All definitions and changes should go into this file.
;
;
; ***************************************************************************
.equ clock=1000000 ; Define the clock frequency
.nolist
.include "include/tn84def.inc" ; Define device ATtiny84
.list
.include "version.asm"
.include "../defs.asm"
.include "devices/all/defs.asm"
.include "common/calls.asm"
.include "common/utils_io.asm"
.include "common/utils_wait.asm"
; ***************************************************************************
; defines
; ---------------------------------------------------------------------------
; LED
.equ LED_DDR = DDRA
.equ LED_PORT = PORTA
.equ LED_PIN = PINA
.equ LED_PINNUM = PORTA3
; ***************************************************************************
; code segment
.cseg
.org 0x0000
; ---------------------------------------------------------------------------
; Reset and interrupt vectors
rjmp main ; 1: Reset vector
reti ; 2: EXT_INT0
reti ; 3: PCI0
reti ; 4: PCI1
reti ; 5: WDT
reti ; 6: TIM1_CAPT
reti ; 7: TIM1_COMPA
reti ; 8: TIM1_COMPB
reti ; 9: TIM1_OVF
reti ; 10: TIM0_COMPA
reti ; 11: TIM0_COMPB
reti ; 12: TIM0_OVF
reti ; 13: ANA_COMP
reti ; 14: ADC
reti ; 15: EE_RDY
reti ; 16: USI_STR
reti ; 17: USI_OVF
devInfoBlock: ; 12 bytes
devInfoManufacturer: .db 'A', 'Q', 'U', 'A'
devInfoId: .db DEVICEINFO_ID, 0
devInfoVersion: .db DEVICEINFO_VERSION, DEVICEINFO_REVISION ; version, revision
firmwareVersion: .db FIRMWARE_VARIANT_BOOT, FIRMWARE_VERSION_MAJOR
.db FIRMWARE_VERSION_MINOR, FIRMWARE_VERSION_PATCHLEVEL
firmwareStart:
rjmp main ; will be overwritten when flashing
; ***************************************************************************
; main code
.org BOOTLOADER_ADDR
main:
rjmp bootLoader ; this routine is in modules/bootloader/main.asm
; ***************************************************************************
; includes
.include "common/utils_wait_fixed.asm"
.include "common/utils_copy_from_flash.asm"
.include "common/utils_copy_sdram.asm"
.include "modules/flash/defs.asm"
.include "modules/flash/eeprom.asm"
.include "modules/flash/io.asm"
.include "modules/flash/io_com2w.asm"
.include "modules/flash/flashxp.asm"
.include "modules/flash/flash1p.asm"
.include "modules/flash/flashprocess.asm"
.include "modules/flash/wait.asm"
.include "modules/bootloader/main.asm"
.include "modules/network/msg/defs.asm"
.include "modules/network/msg/crc.asm"
systemSetSpeed:
.if clock == 8000000
ldi r16, (1<<CLKPCE)
ldi r17, 0
out CLKPR, r16
out CLKPR, r17
.endif
.if clock == 1000000
ldi r16, (1<<CLKPCE)
ldi r17, (1<<CLKPS1) | (1<<CLKPS0)
out CLKPR, r16
out CLKPR, r17
.endif
ret

100
avr/devices/n30/defs.asm Normal file
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; ***************************************************************************
; copyright : (C) 2026 by Martin Preuss
; email : martin@libchipcard.de
;
; ***************************************************************************
; * This file is part of the project "AqHome". *
; * Please see toplevel file COPYING of that project for license details. *
; ***************************************************************************
; ***************************************************************************
;
; AtTiny84
; --------
; VCC 1 14 GND
; OWI PB0 2 13 PA0
; LED_Mode (0 for SPI) PB1 3 12 PA1 COM-DATA
; PB3 4 11 PA2
; PB2 5 10 PA3 LED
; COM_CLK PA7 6 9 PA4 LED_CLK
; LED_DATA PA6 7 8 PA5
; --------
;
; ***************************************************************************
.equ BOOTLOADER_ADDR = 0xd00
.equ FIRMWARE_VARIANT_BOOT = 0
.equ FIRMWARE_VARIANT_LEDSTRIPS = 1
.equ DEVICEINFO_ID = 'N'
.equ DEVICEINFO_VERSION = 30
.equ DEVICEINFO_REVISION = 0
; ---------------------------------------------------------------------------
; LED module
.equ LED_SIMPLE_ONTIME = 1
.equ LED_SIMPLE_OFFTIME = 50
.equ LED_SIMPLE_DDR = DDRA
.equ LED_SIMPLE_PORT = PORTA
.equ LED_SIMPLE_PORTIN = PINA
.equ LED_SIMPLE_PINNUM = PORTA3
; ---------------------------------------------------------------------------
; COM module
.equ COM_BIT_LENGTH = 52000 ; 104000ns=9600, 52000ns=19200, 26000ns=38400
.equ COM_HALFBIT_LENGTH = 26000 ; see https://de.wikipedia.org/wiki/Universal_Asynchronous_Receiver_Transmitter
.equ COM_DATA_DDR = DDRA
.equ COM_DATA_INPUT = PINA
.equ COM_DATA_OUTPUT = PORTA
.equ COM_DATA_PIN = PORTA1
.equ COM_CLK_DDR = DDRA
.equ COM_CLK_INPUT = PINA
.equ COM_CLK_OUTPUT = PORTA
.equ COM_CLK_PIN = PORTA7
.equ COM_IRQ_ADDR_CLK = PCMSK0
.equ COM_IRQ_BIT_CLK = PCINT7 ; bit 7 in PCMSK0 (PCINT7)
.equ COM_IRQ_GIFR_CLK = PCIF0
.equ COM_IRQ_GIMSK_CLK = PCIE0
; ---------------------------------------------------------------------------
; 1-Wire Master
;
.equ OWI_DDR = DDRB
.equ OWI_PORTOUT = PORTB
.equ OWI_PORTIN = PINB
.equ OWI_PINNUM = PORTB0
; ---------------------------------------------------------------------------
; LED mode pin
.equ LED_MODE_DDR = DDRB
.equ LED_MODE_PORTOUT = PORTB
.equ LED_MODE_PORTIN = PINB
.equ LED_MODE_PINNUM = PORTB1
; ---------------------------------------------------------------------------
; SK6812
.equ SK6812_DDR = DDRA
.equ SK6812_PORT = PORTA
.equ SK6812_PINNUM = PORTA6

13
avr/devices/n30/eeprom.asm Normal file
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; ***************************************************************************
; copyright : (C) 2025 by Martin Preuss
; email : martin@libchipcard.de
;
; ***************************************************************************
; * This file is part of the project "AqHome". *
; * Please see toplevel file COPYING of that project for license details. *
; ***************************************************************************
.equ EEPROM_OFFS_SK6812_RGBW = 26 ; 4 bytes

242
avr/devices/n30/enclosure.scad Normal file
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$fn = 50;
width = 45;
length = 65;
height = 20;
corner_radius = 2;
wall_thickness = 1.5;
post_diameter = 8;
post_height = 0;
hole_diameter = 3;
lid_height = 4;
lid_tolerance = .3;
hook_height = 1;
hook_tolerance = 0.75;
hook_slit_height = 2.5;
airslit_height = 1.75;
ridge_height = 16;
ridge_width = 1;
ridge_depth = 2.5;
netconn_width = 17;
netconn_length = 6;
netconn_height = 20;
netconn_tolerance = .3;
powerconn_width = 10;
powerconn_height = 10;
powerconn_length = 6;
powerconn_tolerance = .3;
module posts(x, y, z, h, r){
translate([x, y, z])
cylinder(r = r, h = h);
translate([-x, y, z])
cylinder(r = r, h = h);
translate([-x, -y, z])
cylinder(r = r, h = h);
translate([x, -y, z])
cylinder(r = r, h = h);
}
union() {
difference() {
// box
hull() {
posts(
x=(width/2 - corner_radius),
y=(length/2 - corner_radius),
z=0,
h=height,
r=corner_radius);
}
// hollow
hull() {
posts(
x=(width/2 - corner_radius - wall_thickness),
y=(length/2 - corner_radius - wall_thickness),
z=wall_thickness,
h=height,
r=corner_radius);
}
// ventilation slits left 1
for(i = [(wall_thickness+post_height+3):(airslit_height*2):(height-5)]) {
translate([(-width/2)-wall_thickness, (-length/4), i])
cube([10, length/5, airslit_height], center=true);
}
// ventilation slits top
for(i = [(wall_thickness+post_height+3):(airslit_height*2):(height-5)]) {
translate([-8, -(length/2), i])
cube([18, 10, airslit_height], center=true);
}
// network connector hole 1
translate([(netconn_width-netconn_tolerance)/2,
(length/2),
wall_thickness+2+10])
cube([netconn_width+netconn_tolerance,
netconn_length,
netconn_height],
center=true);
// network connector hole 2
translate([-(netconn_width-netconn_tolerance)/2,
(length/2),
wall_thickness+2+10])
cube([netconn_width+netconn_tolerance,
netconn_length,
netconn_height],
center=true);
// power connector hole
translate([9.75 /*(powerconn_width+powerconn_tolerance)/2*/,
-(length/2),
wall_thickness+2+(powerconn_height/2)])
cube([powerconn_width+powerconn_tolerance,
powerconn_length,
powerconn_height+powerconn_tolerance*2],
center=true);
// cable hole
translate([(width/2)-3, -12, wall_thickness+10])
rotate([00, 90, 0])
cylinder(r = 11/2, h = 6);
// holes for cable binders
translate([(width/2)-3, length/4, wall_thickness+12])
rotate([00, 90, 0])
cylinder(r = 4/2, h = 6);
translate([(width/2)-3, length/4, wall_thickness+6])
rotate([00, 90, 0])
cylinder(r = 4/2, h = 6);
// LED hole
translate([12, -12.5, -wall_thickness])
cylinder(r = 5.5/2, h = 6);
}
// hooks upward facing side
translate([-(width/2)-0.25, length/8, height-(hook_height/2)])
cube([2.5, 7, hook_height], center=true);
translate([-(width/2)-0.25, -length/8, height-(hook_height/2)])
cube([2.5, 7, hook_height], center=true);
// hooks downward facing side
translate([(width/2)+0.25, length/8, height-(hook_height/2)])
cube([2.5, 7, hook_height], center=true);
translate([(width/2)+0.25, -length/8, height-(hook_height/2)])
cube([2.5, 7, hook_height], center=true);
// ridges to hold the pcb
translate([(width/2)-wall_thickness, 0, ridge_height/2+(height-ridge_height)])
cube([ridge_depth, ridge_width, ridge_height], center=true);
translate([-((width/2)-wall_thickness), 0, ridge_height/2+(height-ridge_height)])
cube([ridge_depth, ridge_width, ridge_height], center=true);
}
/* lid */
translate([0, 0, 50]) { /* match at Z=16.5, otherwise 50*/
difference() {
union() {
difference() {
hull() {
posts(
x=(width/2 - corner_radius + wall_thickness + lid_tolerance),
y=(length/2 - corner_radius + lid_tolerance),
z=0,
h=lid_height+wall_thickness,
r=corner_radius);
}
hull() {
posts(
x=(width/2 - corner_radius ),
y=(length/2 - corner_radius)+5,
z=-(wall_thickness),
h=lid_height+wall_thickness,
r=corner_radius);
}
// slits for hooks (upward facing side)
translate([-((width/2)+wall_thickness/2),
length/8,
lid_height-((hook_slit_height)/2)])
cube([4, 9, hook_slit_height], center=true);
translate([-((width/2)+wall_thickness/2),
-length/8,
lid_height-((hook_slit_height)/2)])
cube([4, 9, hook_slit_height], center=true);
// slits for hooks (downward facing side)
translate([(width/2)+(wall_thickness/2),
length/8,
lid_height-((hook_slit_height)/2)])
cube([4, 9, hook_slit_height], center=true);
translate([(width/2)+(wall_thickness/2),
-length/8,
lid_height-((hook_slit_height)/2)])
cube([4, 9, hook_slit_height], center=true);
}
// hooks downward facing side
*translate([(width/2)-lid_lip, 0, 1])
cube([2, 5, hook_thickness], center=true);
*translate([(width/2)-lid_lip, length/4, 1])
cube([2, 5, hook_thickness], center=true);
*translate([(width/2)-lid_lip, -length/4, 1])
cube([2, 5, hook_thickness], center=true);
}
// drilling holes
translate([0, 0, -wall_thickness])
cylinder(r = hole_diameter, h = 10);
translate([0, -(length/3), -wall_thickness])
cylinder(r = hole_diameter, h = 10);
}
}
// support posts for pcb
/*difference() {
translate([0, length/4, wall_thickness])
cylinder(r = post_diameter/2, h = post_height);
translate([0, length/4, wall_thickness])
cylinder(r = hole_diameter/2, h = post_height+3);
}
difference() {
translate([0, -length/4, wall_thickness])
cylinder(r = post_diameter/2, h = post_height);
translate([0, -length/4, wall_thickness])
cylinder(r = hole_diameter/2, h = post_height+3);
}
*/

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avr/devices/n30/main/0BUILD Normal file
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<?xml?>
<gwbuild>
<target type="AvrHexFile" name="n30_firmware" >
<includes type="avrasm" >
-I $(builddir)
-I $(srcdir)
-I $(topsrcdir)/avr
-I $(topbuilddir)/avr
</includes>
<sources type="avrasm" >
main.asm
</sources>
</target>
<subdirs>
</subdirs>
<extradist>
</extradist>
</gwbuild>

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avr/devices/n30/main/main.asm Normal file
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; ***************************************************************************
; copyright : (C) 2025 by Martin Preuss
; email : martin@libchipcard.de
;
; ***************************************************************************
; * This file is part of the project "AqHome". *
; * Please see toplevel file COPYING of that project for license details. *
; ***************************************************************************
; ***************************************************************************
; Source file for LED controller node on AtTiny 84
;
; This is for the full system (i.e. not the boot loader).
; ***************************************************************************
.equ clock=8000000 ; Define the clock frequency
.nolist
.include "include/tn84def.inc" ; Define device ATtiny84
.list
.include "version.asm"
.include "../defs.asm"
.include "../eeprom.asm"
;.include "./data.asm"
.include "devices/all/defs.asm"
.include "common/calls.asm"
.include "common/utils_io.asm"
.include "common/utils_wait.asm"
; ***************************************************************************
; defines
; ---------------------------------------------------------------------------
; generic
.equ NET_BUFFERS_NUM = 6
.equ NET_MSGNUMINBUF_SIZE = 8 ; max buffer nums in ringbuffer (global incoming)
.equ NET_IFACE_OUTMSGBUF_SIZE = 8 ; max buffer nums in ringbuffer (per interface outbound)
; ---------------------------------------------------------------------------
; firmware settings including list of modules used
#define MODULES_CLOCK
#define MODULES_LED_SIMPLE
#define MODULES_NETWORK
#define MODULES_COM2W
#define MODULES_OWI_MASTER
#define MODULES_DS18B20
#define MODULES_SK6812
;#define MODULES_MOTION_LIGHT
#define APPS_NETWORK
#define APPS_REPORTSENSORS
#define APPS_STATS
#define APPS_MA_LIGHT
; ---------------------------------------------------------------------------
; defines for modules
;.equ VALUE_ID_SI7021_TEMP = 0x01
;.equ VALUE_ID_SI7021_HUM = 0x02
;.equ VALUE_ID_ADC = 0x03
;.equ VALUE_ID_REED1 = 0x04
;.equ VALUE_ID_REED2 = 0x05
.equ VALUE_ID_DS18B20_TEMP = 0x06
.equ VALUE_ID_MAL_STATE = 0x07
;.equ VALUE_ID_REED_CONF = 0x81
.equ VALUE_ID_LED_STATE = 0x81
.equ VALUE_ID_LED_NUMLEDS = 0x82
.equ VALUE_ID_LED_RGBW_VALUE = 0x83
.equ VALUE_ID_MAL_RGBW_VALUE = 0x84
.equ VALUE_ID_MAL_ONTIME = 0x85
.equ VALUE_ID_MAL_SOURCE1 = 0x86
.equ VALUE_ID_MAL_SOURCE2 = 0x87
.equ VALUE_ID_MAL_BSOURCE = 0x89
.equ VALUE_ID_MAL_BVALUE = 0x8a
.equ VALUE_ID_LED_MODE = 0x8b
.equ VALUE_ID_LEDSIMPLE_TIMING = 0x88
; ***************************************************************************
; code segment
.cseg
.org 000000
; ---------------------------------------------------------------------------
; Reset and interrupt vectors
rjmp BOOTLOADER_ADDR ; 1: Reset vector ; use this for flashed system
reti ; 2: EXT_INT0
rjmp com2wPcintIsr ; 3: PCI0
reti ; 4: PCI1
reti ; 5: WDT
reti ; 6: TIM1_CAPT
reti ; 7: TIM1_COMPA
reti ; 8: TIM1_COMPB
reti ; 9: TIM1_OVF
rjmp baseTimerIrqOC0A ; 10: TIM0_COMPA
reti ; 11: TIM0_COMPB
reti ; 12: TIM0_OVF
reti ; 13: ANA_COMP
reti ; 14: ADC
reti ; 15: EE_RDY
reti ; 16: USI_STR
reti ; 17: USI_OVF
devInfoBlock: ; 12 bytes
devInfoManufacturer: .db 'A', 'Q', 'U', 'A'
devInfoId: .db DEVICEINFO_ID, 0
devInfoVersion: .db DEVICEINFO_VERSION, DEVICEINFO_REVISION ; version, revision
firmwareVersion: .db FIRMWARE_VARIANT_LEDSTRIPS, FIRMWARE_VERSION_MAJOR
.db FIRMWARE_VERSION_MINOR, FIRMWARE_VERSION_PATCHLEVEL
; ---------------------------------------------------------------------------
; @routine firmwareStart @global
firmwareStart:
rjmp main
; @end
; ---------------------------------------------------------------------------
; @routine onSystemStart
onSystemStart:
ret
; @end
; ---------------------------------------------------------------------------
; @routine onMessageReceived
;
; Called on every message received
onMessageReceived:
clc
ret
; @end
; ---------------------------------------------------------------------------
; @routine onEvery100ms
;
; Called every 100ms. Add your routine calls here. No arguments, no results.
onEvery100ms:
onEveryMinute:
onEveryHour:
onEveryDay:
ret
; @end
onEverySecond:
ret
#if 0
; debug
ldi r19, 0x00 ; G
ldi r18, 0xff ; R
ldi r20, 0x55 ; B
ldi r21, 0xaa ; W
rcall SK6812_SetAllColor ; r23 (r16, r17)
#endif
ret
; ---------------------------------------------------------------------------
; @routine onEveryLoop
;
; Called on every loop (i.e. after awakening from sleep).
;
onEveryLoop:
ret
; @end
; ***************************************************************************
; includes
.include "devices/all/hw_tn84.asm"
.include "devices/all/includes.asm"
;.include "common/debug.asm"
; ---------------------------------------------------------------------------
; defines for network interface
.equ netInterfaceData = com2w_iface