MIARPH * MIDI2CV + ARPEGGIATOR

Miarph is an Arduino based MIDI2CV converter with 4 0-5V 12 bit DAC's and 10 trigger outputs.

Features

• 4 individual 0-5v 12 bit DAC's (MCP4922 based)
• 10 Trigger outputs
• Dual Arpeggiator
• SYSEX configurable.
• Two MIDI-CC controller outputs.
• Two Midi Note + Trigger outputs.
• Split note (single channel) or two individual channel operations.
• 8 individually programmable gate triggers to be either drum trigger or clock divider.

Building Notes

• Use a real Arduino Nano or atleast one with a real FTDI chip.
• There is no tuning possibility, but a stable LM7805 is key.
• The LED is on the wrong side but easy fixable using 2 short wires. (This is the only mistake on the PCB).
• The LED resistor is dependent on your LED specs.
• Capacitors have three holes, always use the square one and one of the others. Both 2.54mm and 5.08mm caps will fit.
• Polarized caps should have their positive in the square hole and the negative pointing outwards the board. (See image above!)
• Remove the jumper and power cable before programming!
• DO NOT CONNECT POWER AND USB AT THE SAME TIME!

BUGS

• It crashes at split note change. But after a reset it is correctly read from eeprom.
• Transpose is buggy, but required because it can only support 60 MIDI notes.

Programming Using Webconfig

See https://midi.tomarus.io/miarph/

You need a modern browser like Opera or Chrome to use this site.

Note that all values are initially unknown until you actually change something. The device has no MIDI output so config values can't be read back.

After initially building the device, you should set all of your defaults once via webconfig. After changing values it is stored on the device's eeprom and used at the next power up.

Programming Using the Commandline

Use the midi2cv Go utility to program the device.

Example:

./midi2cv write 0x01 0x77

Where 0x01 is the address and 0x77 the value.

List of addresses to program:

Address	Description	Example value
0x00	unused	--
0x01	Split keyboard at note	0x40 (use 0x00 for no split)
0x02	MIDI 1 Channel	0x01
0x03	MIDI 2 Channel	0x02
0x04	Transpose Channel 1	0x40
0x05	Transpose Channel 2	0x40
0x06	Control Change Number Channel 1	0x07 (0x07 = volume)
0x07	Control Change Number Channel 2	0x6A (0x6A = filter cutoff)
0x08	Control Change Channel 1	0x01
0x09	Control Change Channel 2	0x02
0x0a	Pitchbend Channel 1	0x02 (number of notes)
0x0b	Pitchbend Channel 2	0x0c (number of notes)
0x0c	Midi Channel 1 sync	0x00 (00 = use potmeter, otherwise nr of midi clock ticks)
0x0d	Midi Channel 2 sync	0x00 (00 = use potmeter, otherwise nr of midi clock ticks)
0x0e	Clockticks to advance the clock divider	0x03 (0x03 = sync to quarter notes)
0x0f	unused	--
0x10..0x18	Port Mode (0 = clock divider, 1 = drum trigger)	0x00
0x18..0x20	Port Trigger Note	0x36
0x20..0x28	Port Clock Divider Division (0=1/1, 1=1/2, 2=1/4, 3=1/8, etc)	0x00

Bill Of Materials

Designator	Package	Quantity	Designation	PartNo
RV1	Potentiometer_Alps_RK09K_Single_Vertical	1	B10K
NANO	Arduino_Nano_Silk	1	Nano v3
C1	GenericCap	1	100uF
C2	GenericCap	1	10uF
C3,C4,C5,C6,C7,C8,C9	GenericCap	7	100nF
D1	LED_D3.0mm	1	LED
D2,D3,D4	D_DO-35_SOD27_P7.62mm_Horizontal	3	D
J1	PinHeader_1x02_P2.54mm_Vertical	1	ProgramJmpr
J2	IDC-Header_2x05_P2.54mm_Vertical	1	Power
J3,J14,J15	PinSocket_1x04_P2.54mm_Vertical	3	Conn_01x04_M
J4,J24,J25	PinHeader_1x04_P2.54mm_Vertical	3	Conn_01x04_F
J5	PinSocket_1x08_P2.54mm_Vertical	1	Conn_01x08_M
J6	PinHeader_1x08_P2.54mm_Vertical	1	Conn_01x08_F
J7	Jack_3.5mm_QingPu_WQP-PJ366ST_Vertical	1	Midi Input
J8-J13,J16-J23	Jack_3.5mm_QingPu_WQP-PJ398SM_Vertical	14	Misc
R1,R2	R_Axial_DIN0207_L6.3mm_D2.5mm_P7.62mm	2	2K2
R3,R4,R5,R6	R_Axial_DIN0207_L6.3mm_D2.5mm_P7.62mm	4	1K
R7	R_Axial_DIN0207_L6.3mm_D2.5mm_P7.62mm	1	220
R8,R9,R10,R11,R12,R13,R14,R15	R_Axial_DIN0207_L6.3mm_D2.5mm_P7.62mm	8	100
U1	TO-220-3_Horizontal_TabDown	1	L7805
U2	DIP-8_W7.62mm	1	24LC256
U5	DIP-4_W7.62mm	1	PC817	PC817XNNSZ1B
U6,U8	DIP-14_W7.62mm	2	TL074
U7	DIP-16_W7.62mm	1	74HC595
U3,U4	DIP-14_W7.62mm	2	MCP4922