Digi International Inc XB3C1 User Manual
Design recommendations
Cellular component firmware upgrades
Digi XBee3 Cellular LTE Cat 1 Smart Modem User Guide
70
Cellular component firmware upgrades
Even if you do not plan to use the USB interface, we strongly recommend you provide a way to access
the USB to support direct firmware upgrades of the cellular modem.
the USB to support direct firmware upgrades of the cellular modem.
One way to provide access to the USB interface is to connect XBee pins 6, 7, and 8, and 10 to an
unpopulated USB connector; see
unpopulated USB connector; see
for more information. At a minimum you should
connect pins 7 and 8 to test points so they are easy to wire to a connector if necessary.
If you are using pins 6, 7, and 8 for other purposes you must provide a way to disconnect those
interfaces during USB operation, such as using zero ohm resistors.
interfaces during USB operation, such as using zero ohm resistors.
USB Direct design
Connect USB data pins 7 and 8 (USB_D+ and USB_D- respectively) on the XBee Smart Modem to the
appropriate pins on the host processor or connector. You may optionally connect pin 6 to VBUS if you
want USB to be enabled based on whether your host is connected. Alternatively, you may configure
VBUS in software; see
appropriate pins on the host processor or connector. You may optionally connect pin 6 to VBUS if you
want USB to be enabled based on whether your host is connected. Alternatively, you may configure
VBUS in software; see
for more details. VBUS is only used as a reference, not for
powering anything on the XBee Smart Modem, so it may be routed as a standard signal trace.
The USB interface follows the USB 2.0 high speed specification and data lines must be designed as a
90 Ω differential pair. Both traces should be the same length and the overall trace length should be
kept as short as possible. If you are connecting to a USB connector then we recommend that you
employ an ESD suppressor appropriate for USB 2.0 HS (for example the Littelfuse PESD0402-140).
Other than the ESD suppressor, do not place additional components in the signal paths. The
suppressor is not needed if you are connecting to an on-board host processor.
90 Ω differential pair. Both traces should be the same length and the overall trace length should be
kept as short as possible. If you are connecting to a USB connector then we recommend that you
employ an ESD suppressor appropriate for USB 2.0 HS (for example the Littelfuse PESD0402-140).
Other than the ESD suppressor, do not place additional components in the signal paths. The
suppressor is not needed if you are connecting to an on-board host processor.
Power supply considerations
When considering a power supply, use the following design practices.
1. Power supply ripple should be less than 75 mV peak to peak.
2. The power supply should be capable of providing a minimum of 1.5 A at 3.3 V (5 W). Keep in
mind that operating at a lower voltage requires higher current capability from the power
supply to achieve the 5 W requirement.
3. Place sufficient bulk capacitance on the XBee VCC pin to maintain voltage above the minimum
specification during inrush current. Inrush current is about 2 A during initial power up of cellular
communications and wakeup from sleep mode.
4. Place smaller high frequency ceramic capacitors very close to the XBee Smart Modem VCC pin
to decrease high frequency noise.
5. Use a wide power supply trace or power plane to ensure it can handle the peak current
requirements with minimal voltage drop. We recommend that the power supply and trace be
designed such that the voltage at the XBee VCC pin does not vary by more than 0.1 V between
light load (~0.5 W) and heavy load (~3 W).
Add a capacitor to the RESET line
In high EMI noise environments, we recommend adding a 10 nF ceramic capacitor very close to pin 5.