doc: fix typo and improve over-current details

This commit is contained in:
King Kévin 2022-10-15 16:03:32 +02:00
parent 1e3a18c7b2
commit 49b61c90fd
1 changed files with 31 additions and 32 deletions

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@ -3,7 +3,7 @@ the CuVoodoo USB hub is a 7-port USB 2.0 hub meant for device testing.
purpose
=======
most USB hub are super cheap and crappy, leading to poor connection and data transfer.
most USB hubs are super cheap and crappy, leading to poor connection and data transfer.
there are industrial USB hubs, but they are bulky and very expensive.
to solve this issue I decided to design my own USB hub, tailored to my needs.
@ -11,27 +11,26 @@ when developing and testing hardware, you often end with a lot of USB devices co
USB allows to have up to 128 devices, but only with a maximum depth of 7.
thus you are only allowed to have a maximum of 5 USB hubs between computer and devices, and I often have to plan my setup to not reach this limit.
most 7-port USB hubs use two 4-port USB hub, the seconds being connected to the first.
there are some exception to that, but they are rare, old, and often not advertised as such.
this heavily limits the number of end devices.
this device is a 7-port flat USB hub, preventing reaching this limit too often.
there are some exceptions to that, but they are rare, old, and often not advertised as such.
this heavily limits the actual number of end devices.
the CuVoodoo USB hub is a 7-port flat USB hub, preventing reaching this limit too fast.
the incoming and outgoing USB ports are individually ESD protected.
this safety becomes important when developing, testing, and handling bare electronic devices.
this also comes in handy against when connecting circuit with different ground potentials.
this also comes in handy when connecting circuit with different ground potentials.
ESD protections already saved my day twice this way.
the issue is that they can blow without you noticing, but at least they protected the device once.
each output port is current limited to 500 mA.
no device should draw more that this specified limit.
no USB 2.0 device should draw more that this specified limit.
it if does, there is very probably an issue with the device.
this protection allows to isolate the faulty device and not have it affect all other connected devices, or the hub itself.
the fault is also detected and reported by the hub to the host computer.
see `current limitation` below for more details.
each output port is power controlled.
this allows to remotely switch on an off individual devices.
this allows to remotely switch on and off individual devices.
this is an important requirement when developing and testing devices, which require a power cycle.
additionally, a switch next to the power can force the power off state.
additionally, a switch next to the USB port can force the power off state.
the USB hub can be self-powered (through the USB input port), externally powered by 5V, or externally powered by anything between 6 and 40V.
this allows to use higher voltage power supplies to provide enough current to all ports.
@ -39,12 +38,12 @@ the 5V are not feed back to the host.
each USB port comes with a high voltage output power port, connected to the high voltage input port.
this allows to power devices which require more than 5V (e.g. 12V externally powered devices).
these power outputs are controllable.
these power outputs are controllable along the USB port.
as with the 5V USB power output, this allows to remotely switch on an off individual devices.
each port has status LEDs, indicating the speed and power status of the connected device.
the board uses proper impedance and differential signal routing to provide clean USB signal transfer.
the board uses proper impedance and differential signal routing to provide clean USB signals.
design choice
=============
@ -53,8 +52,8 @@ USB 2.0
-------
this hub is only for USB 2.0 devices.
by far this are most of the devices I develop.
is makes it simpler and keeps the cost reasonable.
these are by far most of the devices I develop.
it makes it simpler and keeps the cost reasonable.
I often even disable USB 3.0 because of the 13-device limitation of the Intel xHCI.
when I need USB 3.0 for the very few devices, I connected them to the computer directly.
@ -63,7 +62,7 @@ USB2517
I wanted to use the FE2.1 7-port USB hub chip.
it does not need an external voltage regulator or crystal.
and it is easier to solder thanks to its TQFP package, and provides all required functionalities.
it is easier to solder thanks to its TQFP package, and provides all required functionalities.
sadly I could not find a source for the 64-pin packages, and the 48-pin variant does not provide all required functionalities.
thus I had to fall back to the Microchip USB2517, which uses a harder to solder QFN package.
@ -77,14 +76,15 @@ thus you can completely power off even larger target devices.
current limitation
------------------
very few USB hubs that have current limitation on the output.
the USB hub has current limitation on the output.
this does limit the current to 500 mA, but only in constant current mode.
if well designed, the fault is also reported to the computer.
sometimes the hub also turns off the power, or it is up to the user to power off the faulty port.
following current limiters have been tested:
on this hub, the fault is reported, and the power is automatically disabled, preventing damages on the device due to prolonged shorts.
this is very useful when testing devices.
the power is restored once the current limit is cleared.
- 0.5A PPTC fuse: it takes too long to trigger (> 1s), and switch off is not reliably detected
- MT9700: it has no over-current signal
- SY6288AAAC: the (fixed) current limit is not 0.6A, but around 1.5A
- TJ2242GSF6: over-current is only detected after 3s (instead of specified 100us, probably caused by thermal shutdown), and it is not signaled
- DIO7553ST6: works as expected and wished
the power distribution switch detects the over-current state and asserts the fault flag after 10 ms.
after 0.1 ms (as set in OC_TIMER, in Configuration Data Byte 2, in EEPROM) the hub will switch off power.
@ -93,14 +93,8 @@ after 100 ms the HUB will re-enable power.
this loop will repeat indefinitely.
no over-current is reported to the host in this case (when the over-current is cleared while power is off).
it is only reported when the OCS is asserted for longer (unknown time, with OCS kept low also when powered off).
following current limiters have been tested:
- 0.5A PPTC fuse: it takes too long to trigger (> 1s), and switch off is not reliably detected
- MT9700: it has no over-current signal
- SY6288AAAC: the (fixed) current limit is not 0.6A, but around 1.5A
- TJ2242GSF6: over-current is only detected after 3s (instead of specified 100us, probably caused by thermal shutdown), and it is not signaled
- DIO7553ST6: works as expected and wished
this is a flaw of the USB2517, where the over-current is only reported if it can't control the power state.
I did not find a configuration option for this aspect in the datasheet.
LED color
---------
@ -118,7 +112,13 @@ instead the following color scheme is used:
- red: low speed device connected
- blue: full speed device connected
- purple (red+blue): high speed device connected
- red and blue off: disconnected
- red and blue off: disconnected or in sleep
power output
------------
switching the power of the USB port also switches the 6-40V forward output.
when the 6-40V input is not connected, current/voltage feedback from the outputs is blocked.
usage
=====
@ -134,6 +134,7 @@ this will also turn the hub into self powered, not using any power from the UFP.
alternatively, you can connect a 6 to 40V power supply on the other power input.
the power for the hub and the 5V for the DFP will be derivate from this higher voltage supply.
the same higher voltage will be available on the power output next to the individual DFPs.
the hub will not switch on until the UFP USB port is connected.
a switch next to each DFP allows to turn off the power output on the USB and power ports.
the green LED is on when power output is available.
@ -147,5 +148,3 @@ sudo uhubctl
# switch of port
uhubctl --action off --location 1-1.4 --ports 5
~~~
when too much current is drawn on the USB port, the error is reported to the host and the power output is automatically disabled.