FreeCalypso > hg > freecalypso-docs
diff GTM900-design-guide @ 30:658010a51ff4
GTM900-design-guide written
author | Mychaela Falconia <falcon@freecalypso.org> |
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date | Sun, 13 Sep 2020 21:36:17 +0000 |
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--- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/GTM900-design-guide Sun Sep 13 21:36:17 2020 +0000 @@ -0,0 +1,150 @@ +As of this writing (2020-09), the Mother's company Falconia Partners LLC is +actively in the process of bringing to market a new FreeCalypso hardware +solution based on our FC Tango module, and we also have an FTDI-based +(specifically FT2232D) adapter for connecting to Calypso UARTs (both of them) +and for controlling the Calypso module's PWON and RESET, allowing remote +control of Calypso power and boot in physically unattended environments. +However, this Tango-based solution is expected to become available some time +in 2020-12 (up to 3 months from now), and we realize that some people may not +be able to wait this long - some people may have an immediate need for some +working solution right now. + +We are also aware that our European colleagues over at Sysmocom are working on +a competing solution based on the Huawei GTM900 Calypso modem module, but are +going totally the wrong way about it, and seem to be running into roadblocks +resulting from their earlier bad design choices. In light of this observed +situation, the present document has been put together to provide some guidance +to those who are currently misguided. If someone needs a working solution +right now, cannot wait another 3 months for our company to deliver our Tango- +based Caramel2+DUART28 solution, is looking at using GTM900 for the Calypso +module, and would be willing to use an FT2232x (either D or H) chip instead of +Sysmocom's poor choice of Silabs CP2105, this document will tell you exactly how +you should hook everything up in order to produce a guaranteed-working solution +without wasting time and energy on multiple design iterations. + +FT2232x chip and EEPROM +======================= + +Either FT2232D or FT2232H should work equally well, hence the choice between +the two is up to the board designer's preference. Our DUART28 adapter uses +FT2232D, and this choice was made primarily in the hope of easing the onerous +requirement of PCB controlled impedance (90 ohm differential) for USB traces: +FT2232H supports USB high speed, and this USB HS capability is thought to make +the controlled impedance requirement more stringent. Our competitor CP2105 has +no USB HS capability just like FT2232D, hence the latter was chosen to match. +But if the 90 ohm controlled impedance requirement is not a problem for you, +then by all means go ahead and use the newer and apparently more popular +FT2232H. + +Whichever FT2232x chip you choose, you should include an EEPROM in your board +design. This EEPROM is officially optional per FTDI, but if you omit it, you +lose the ability to set a custom USB VID:PID. If you are only interested in +the two Calypso UARTs and don't need programmatic control of PWON and RESET, +then using the FT2232x chip's default USB VID:PID of 0x0403:0x6010 (with or +without an EEPROM) is perfectly fine. However, if you are going to do what I +recommend below in terms of using (otherwise unused) FT2232x Channel B RTS and +DTR outputs to control PWON and RESET, then you will need to apply a custom +patch to the Linux kernel's ftdi_sio driver (see freecalypso-hwlab Hg +repository) in order to make this mechanism practically usable. If you are +going to be applying any kind of custom patches to that ftdi_sio driver, having +a custom USB VID:PID will be very helpful in order to apply the needed quirks +conditionally, hence the EEPROM becomes necessary. + +LEGAL NOTE: Falconia Partners LLC has received an official allocation of 8 PIDs +from FTDI out of FTDI's USB VID, but these USB IDs are _ONLY_ for hardware +products that are physically produced by Falconia Partners LLC - other parties +may not use these USB IDs without our explicit permission. Therefore, if you +are going to use a custom USB VID:PID, you will need to provide your own. + +Dual UART signal connections +============================ + +Unlike CP2105, the two channels of FT2232x are perfectly symmetric, hence the +choice of which FT2232x channel should be connected to which Calypso UART is +arbitrary. As the Mother of FreeCalypso, I very strongly encourage everyone to +use this convention: Calypso MODEM UART (the one for which Huawei brought out 8 +wires with full modem control) should be connected to FT2232x Channel A, and +Calypso IrDA UART (the one for which there are only two wires) should be +connected to FT2232x Channel B. + +If you are going for the lowest cost in terms of component count and PCB real +estate, it is perfectly acceptable to connect FT2232x I/O pins directly to +Calypso UART pins. Yes, FT2232x outputs operate at 3.3V and cannot be brought +down to Calypso native 2.8V, but if you read TI Calypso datasheets (document +CAL000/A in particular), is says quite clearly that input voltages of up to +VDDS+0.5V are acceptable, i.e., the inputs are tolerant of 3.3V. This situation +becomes a little less than ideal during Calypso sleep modes (the higher voltage +feeds into the chipset's V-IO rail and brings that rail a little higher than +normal), but engineering is all about trade-offs and compromises, and sometimes +it is necessary to trade off between perfection and cost. + +If you do wish to feed proper 2.8V signals to the Calypso instead of 3.3V, the +easiest way to do so would be to insert LVC buffers into signal paths from +FT2232x outputs to Calypso UART inputs. Power the LVC buffer IC from the +Calypso+Iota chipset's V-IO rail, which Huawei brought out on an interface pin +they named "VDD". There will be no problem with partial power-down conditions +(USB on, Calypso off) because LVC buffers are specifically designed for such +operation and have very low Ioff specs in the uA range. + +Our DUART28 adapter also includes another LVC buffer going the other way, in +the path from Calypso UART outputs to FT2232x inputs, but it is included for +only one reason: in order to gracefully support the other partial power-down +scenario of Calypso up and running, but no USB host connected and thus no USB +power. If this latter scenario is not a concern for your application, then +there is absolutely no problem with connecting Calypso UART outputs directly to +FT2232x inputs without any buffers. + +Controlling PWON and RESET +========================== + +FT2232x RTS and DTR outputs are normally CMOS high (RS-232 inactive) when no +one is poking at them, but the standard Linux kernel ftdi_sio driver (following +POSIX stipulations, apparently) unconditionally makes them both CMOS low +(RS-232 active) when the ttyUSBx device is opened. If you look in our +freecalypso-hwlab Hg repository, you will find a patch to this driver (a quirk +conditionalized on a custom USB VID:PID) that suppresses this automatic +assertion of RTS & DTR on ttyUSBx device open, allowing userspace applications +to control them explicitly with TIOCMBIS and TIOCMBIC ioctls. + +Our upcoming Caramel2+DUART28 solution will include an optional (one may connect +the needed jumper wires or leave them unconnected) provision for controlling +the Calypso+Iota chipset's PWON and RESET with otherwise unused FT2232 Channel B +RTS & DTR outputs. The arrangement we have implemented is that when ChanB RTS +is asserted (CMOS low, TIOCMBIS), Calypso PWON is triggered, and when ChanB DTR +is asserted, Calypso RESET is triggered. We recommend that others follow the +same convention. + +PWON wiring +----------- + +The Calypso+Iota chipset's (Iota really) PWON input is internally pulled up to +raw VBAT, thus it must not be connected directly to any ordinary 3.3V or 2.8V +logic - instead it needs to be driven with an OC or OD buffer. If it is to be +controlled with ChanB RTS (FT2232x BDBUS2 output), the ideal circuit is a simple +non-inverting OD buffer such as Nexperia 74LVC1G07; the OD buffer IC's Vdd +supply should be connected to the FT2232x chip's 3.3V I/O supply rail. + +RESET wiring +------------ + +The RESET input is different between Huawei GTM900 and FC Tango modules. On FC +Tango it is raw Iota nTESTRESET and thus needs to be driven in the same way as +PWON described above, but GTM900 internally incorporates the JTAG reset circuit +depicted on TI's Leonardo schematics, and the RESET signal they bring out is +what we (FreeCalypso) call XDS_RESET - see the Calypso-test-reset article. It +is acceptable to drive XDS_RESET with an OC/OD driver just like PWON or raw +nTESTRESET, but this OC/OD driver becomes optional with XDS_RESET - thanks to +the transistor circuit inside the GTM900 module, it is perfectly acceptable to +wire FT2232x BDBUS4 output (ChanB DTR) directly to GTM900 RST input, and it will +work per our convention, triggering a reset when ChanB DTR is asserted. + +The XDS_RESET transistor circuit inside GTM900 does have one unpleasant side +effect though: on modules like FC Tango that bring out raw nTESTRESET, that +reset includes a built-in Switch-ON function, and PWON effectively becomes +optional - one can fully control the module using only RESET and soft poweroff +- but the same does NOT hold on GTM900. XDS_RESET may or may not work (no +guarantees) when the Calypso+Iota chipset is in VRPC switched-off state, thus +one must do a switch-on with PWON first, and then drive a reset if necessary. +And no, driving XDS_RESET with an OC/OD buffer won't do anything to eliminate +this unpleasant side effect - you just have to live with it for as long as you +use GTM900 modules and not FC Tango.