LARA-R2 series - System Integration Manual
UBX-16010573 - R12
Design-in
Page 83 of 157
Combining a LARA-R2 series cellular module with a u-blox GNSS positioning receiver, the positioning receiver
VCC
supply is controlled by the cellular module by means of the “GNSS supply enable” function provided by the
GPIO2
of the cellular module. In this case, the
V_BCKP
supply output of the cellular module can be connected to the
V_BCKP
backup supply input pin of the GNSS receiver to provide the supply for the positioning real time clock
and backup RAM when the
VCC
supply of the cellular module is within its operating range and the
VCC
supply of
the GNSS receiver is disabled. This enables the u-blox GNSS receiver to recover from a power breakdown with
either a hot start or a warm start (depending on the duration of the positioning
VCC
outage) and to maintain the
configuration settings saved in the backup RAM. Refer to section 2.6.4 for more details regarding the application
circuit with a u-blox GNSS receiver.
The internal regulator for
V_BCKP
is optimized for low leakage current and very light loads. Do not apply
loads which might exceed the limit for the maximum available current from
V_BCKP
supply, as this can
cause malfunctions in the module. The
LARA-R2 series
[1] describes the detailed electrical
characteristics.
The
V_BCKP
supply output pin provides internal short circuit protection to limit the start-up current and protect
the device in short circuit situations. No additional external short circuit protection is required.
ESD sensitivity rating of the
V_BCKP
supply pin is 1 kV (Human Body Model according to JESD22-A114).
Higher protection level can be required if the line is externally accessible on the application board, e.g. if an
accessible back-up battery connector is directly connected to
V_BCKP
pin, and it can be achieved by
mounting an ESD protection (e.g. EPCOS CA05P4S14THSG varistor array) close to the accessible point.
2.2.2.2
Guidelines for V_BCKP layout design
The RTC supply (
V_BCKP
) requires careful layout: avoid injecting noise on this voltage domain, as it may affect the
stability of the 32 kHz oscillator.