User's Manual
SARA-G3 and SARA-U2 series - System Integration Manual
UBX-13000995 - R18 Advance Information Design-in
Page 167 of 206
2.16 Design-in checklist
This section provides a design-in checklist.
2.16.1 Schematic checklist
The following are the most important points for a simple schematic check:
5 DC supply must provide a nominal voltage at VCC pin above the minimum operating range limit.
5 DC supply must be capable of providing 1.9 A current pulses, providing a voltage at VCC pin above the
minimum operating range limit and with a maximum 400 mV voltage drop from the nominal value.
5 VCC supply should be clean, with very low ripple/noise: provide the suggested bypass capacitors (and
series ferrite bead in case of SARA-U201), in particular if the application device integrates an internal
antenna.
5 VCC voltage must ramp from 2.5 V to 3.2 V within 4 ms to allow a proper switch-on of the module.
5 Do not leave PWR_ON floating: fix properly the level, e.g. adding a proper pull-up resistor to V_BCKP.
5 Do not apply loads which might exceed the limit for maximum available current from V_INT supply.
5 Check that voltage level of any connected pin does not exceed the relative operating range.
5 Capacitance and series resistance must be limited on each SIM signal to match the SIM specifications.
5 Insert the suggested capacitors on each SIM signal and low capacitance ESD protections if accessible.
5 Check UART signals direction, since the signal names follow the ITU-T V.24 Recommendation [10].
5 Provide accessible testpoints directly connected to the following pins of the SARA-G3 series modules:
TXD_AUX and RXD_AUX pins, GPIO3 and I
2
S pins, V_INT pin, RESET_N and/or PWR_ON pins, for
module FW upgrade by the u-blox EasyFlash tool and/or for diagnostic purpose.
5 Provide accessible testpoints directly connected to the following pins of the SARA-U2 series modules:
VUSB_DET, USB_D+, USB_D- and/or RXD, TXD, CTS, RTS pins, V_INT pin, RESET_N and/or PWR_ON
pins, for module FW upgrade by the u-blox EasyFlash tool and/or for diagnostic purpose.
5 Add a proper pull-up resistor (e.g. 4.7 k:) to V_INT or another proper 1.8 V supply on each DDC (I
2
C)
interface line, if the interface is used.
5 Capacitance and series resistance must be limited on each high speed line of the USB interface.
5 Capacitance and series resistance must be limited on each line of the DDC (I
2
C) interface.
5 Use transistors with at least an integrated resistor in the base pin or otherwise put a 10 k: resistor on
the board in series to the GPIO when those are used to drive LEDs.
5 Connect the pin number 33 (RSVD) to ground.
5 Insert the suggested passive filtering parts on each used analog audio line.
5 Check the digital audio interface specifications to connect a proper device.
5 Capacitance and series resistance must be limited on CODEC_CLK line and each I
2
S interface line.
5 Provide proper precautions for ESD immunity as required on the application board.
5 Any external signal connected to any generic digital interface pin must be tri-stated or set low when the
module is in power-down mode and during the module power-on sequence (at least until the activation
of the V_INT output of the module), to avoid latch-up of circuits and let a proper boot of the module.
5 All unused pins can be left unconnected except the PWR_ON pin (its level must be properly fixed, e.g.
adding a 100 k: pull-up to V_BCKP) and the RSVD pin number 33 (it must be connected to GND).