PowerNode White - Configuration: verschil tussen versies

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(Board versions)
Regel 10: Regel 10:
 
*** Slow serial speed
 
*** Slow serial speed
 
*** PoE led does not light up
 
*** PoE led does not light up
 +
**** This is now confirmed to be a silicon issue (it is in the latest Errata). So a lost cause.
 
*** i2c pressure sensor not very usable
 
*** i2c pressure sensor not very usable
 
*** Mitre saw very affected by welding nearby
 
*** Mitre saw very affected by welding nearby

Versie van 1 dec 2024 om 22:32


Board versions

White node - front v1.08 White node - back v1.08

  • 1.08 - colour white - late 2023/early 2024
    • Known issues
      • Slow serial speed
      • PoE led does not light up
        • This is now confirmed to be a silicon issue (it is in the latest Errata). So a lost cause.
      • i2c pressure sensor not very usable
      • Mitre saw very affected by welding nearby
      • Flashover/sparks in Node Bandsaw - likely too little separation for 600VAC emc pushback

Black node - front v1.11, rework #1 Black node - back v1.11

  • 1.11 - colour black; changes - June 2024
    • Known issues
      • PoE led does not light up
    • Changes
      • Additional ESD and TVS diodes on Ethernet, USB and antenna - to try survive welding.
      • More high voltage separation (to prevent flashover seen in bandsaw
      • 5 additional LEDs on front; one current sensor replaced by 2 extra opto couplers.
      • error LED more visible,
      • extra MENU button,
      • switch overrides,
      • extra/more shielding,
      • USB-C connector, higher speed serial, by default. USB-B connector can be soldered on. USB-A/USB-C connectors can be used.
      • Better silk screen / solder mask for OLED
      • Allow for more robust relays (DPDT - lots of those in Electrobench)
      • Space for a i2c pressure sensor

Rework

Rework 1.08

None; but high voltage traces are relatively near; one node had a spark issue when the snubber on the safety contactor failed.

Rework 1.11

  • Rework #1 -- swap EN/IO0 at the Q transistors

Jumpers

Power Jumpers

The relays can be switched 'as is'; where the NO/C/NO or NO/C of either relay is mapped to pin 1,2,3 for the first relay and to pin 4 and 5 for the second relay. Or they can be mapped to the N/L of the AC input on pin 6 and 7. Diagram:...

Power setup / AC-DC and PoE Jumpers

Power can come from several sources; US, PoE, an external source and an AC/DC transformer on the board.

There are 2 power sets - one for the electronics (typically 5V down to 3v3) and one for the relays and other externals (typically 5v, 12v or 24 volt).

For PoE - unless a variable 68k resister (potentiometer) is mounted and R?? is removed - the external voltage is set to 5V by this register. The resistor allows for 5v to around 40v (given the general the max of PoE on our switch).

The AC/DC transformer can be anything between 3v3 and 12volt. For higher voltages - beware that the 3v3 regulator needs to step it down for the electronics.

The jumps give the following options:

  • PoE Negotiation off
    • When open; allow PoE negotiation
    • When soldered close; no PoE is requested. AC transformer assumed to be soldered onto the board.
  • Write Protect
    • Only relevant if a i2c EEPROM has been soldered onto (default is not). Will write protect this EEPROM when soldered close.
  • R81, R83, R132, R139
    • When removed - will disable OPTO inputs
  • R82
    • When removed - will disable Current0 measurement.
  • R84
    • When removed - will disable RFID
  • RJ2, RJ3
  • JP4 -- Slowstart/PoE control 5 volt
    • No solder: normal PoE start (immediate)
    • Solder to SS - slow start PoE (recommended)
    • Solder to No - no PoE
  • JP3 -- Slowstart/PoE control Power voltage
    • No solder: normal PoE start (immediate, always)
    • Solder to SS - slow start PoE (recommended) after 5 volt PoE is brought up. If no 5Volt - then no Power voltage either.
    • Solder to No - no PoE
  • EXT to PoE
    • Allow external voltage to drive both DC/DC convertors (5V and Power voltage)
  • INT to PoE
    • Allow AC/DC transformer to drive both DC/DC convertors (5V and Power voltage)
  • Vpower to VEXT/POE/POE5/INT
    • Select the source of power for the power-voltage
  • 5V to VEXT/POE/POE5/INT
    • Select the source of power for the 5V (and 3v3) electronics supply.
  • OUT3, OUT4, ERR
    • When removed; a LED can be soldered on the other side of the board
  • U39 / output 1
    • Middle 2 pads joined: OUT1 is directly across the Normally Open of the relay
    • Outer 2 pads joined: OUT1's 2 outputs are connected to the N of the AC input and, via the relay, the L of the AC input
  • U42 / output 2
    • Middle 2 pads joined: OUT2 is directly across the Normally Open of the relay
    • Outer 2 pads joined: OUT2's 2 outputs are connected to the N of the AC input and, via the relay, the L of the AC input. The normally closed is wired the same way.
  • MS1, MS2, MS3
    • Sets the stepper speed - see A4988 documentation.
  • LED9, LED10, LED11, LED12, (v1.11 and later)
    • Optional leds on the back
  • IOA, IOB, IOC, IOD, IOE (v1.11 and later)
    • When connector mounted - direct outputs of the AW9524 i2c expander; can drive an LED direct against the VCC or 5V.
  • R58
    • Wires copper area under RJ45 and Magnetics to a blob-smith plane/ground

Voltage settings

There are two DCDCs that take their input from the 48-60Volt pover ethernet.

The 5V DC/DC (and then down to 3v3) is fixed. The second DC/DC is fixed at 5 volts; but a resistor (or a potentiometer) can be soldered in to get a higher Power voltage (e.g. to drive relays:

Resistor Voltage
150k potmeter 5-45+ volt (32 volt reliable max given wiring in the space)
0 5V
4k 6V
16k 9V
27k 12V
39k 15V
74k 24V
106k 32V (practical max)

Switches (v1.11 only)

The board contains two switches, bottom right near transformer, to override the electronics/CPU - these will `always on' a relay.

dipswitch, red

Hardware options

The boards allow for various extra `options'

15 pins Mains connector

The main connector is a 15 pin, 3.5mm K2FEDGK connector/terminal block. Approximate price is 1 euro.

K2FEDGK-15pin.jpg

Pushbutton and LED connectors

Normal two-pin XH 2.54 connector for the LED and for each of the push-buttons (inside the footprint). Same type as often used for fans on PCs.

Pushbuttons are 6x6mm standard pushbuttons; switch at least 10mm high. E.g. https://www.hobbyelectronica.nl/product/push-button-6x6x5/ or https://www.tme.eu/nl/details/1301.9304/microschakelaars-tact/schurter/ -- around 50cent.

Pushbutton-6x6mm.jpg

External/separate current coil

The current coil (1 for v1.11, 2 for v1.08) can be on the PCB - but can also be replaced by a 3.5mm jacket and a standard pickup.

PCBjack-3 5mm.jpg

Current-coil-3 5mm.jpg

This is used on the Ceramic Kiln its Node Ceramic.

Pressure sensor

There is room on the board for an i2c HX710B pressure sensor (around 1.50 Euro).

i2c pressure sensor

OLED screen

Used are Oled Display Module 12864 SH1106 I2C screens with 30 pins.

Screen-oled-30-i2c.jpg

Version 1.08 of the board has a manky solder-mask; you will get cross-flow between the GND and some other pins. Check the schematics as to if this is bad or ok. v1.11 is ok again.

Enclosure

The PCB fits a 150x150 enclosure - such as zp150-150-60 series. E.g: https://www.tme.eu/nl/details/zp15015060jph-pc/behuizingen-universeel/kradex/zp150-150-60jph-tm-pc/ (around 10 euro).

150x150.jpg

XX insert Alex his design which we can print / change

Large 15 pin Connector

A large connector or socket can be used; 3.5mm pitch. E.g. https://de.aliexpress.com/item/1005006345862685.html - around one euro.

15pin-35mm.jpg

Extra IO connector

Normal 2.5mm pitch

Relay

A normal DPDT omron/schrack (plenty in the cupboard) or one of two types of Solid State relays - in line and 'box':

SSRelay-1.jpgSSRelay-2.jpg

Of the small type - two will fit; of the big type - just one. However there is a 2.54 connector to move things off-board or to a din rail.

Dinrail-12v-1.jpg

Versions prior to 1.08 used the Songle model - but these burn out a bit too easy when switching a 400VAC Safety Relay.