User's Manual
Table Of Contents
- 1 Introduction
- 2 Block Diagram
- 3 Application Interface
- 4 Module Pins
- 5 Electrical Characteristics
- 6 Mechanical Characteristics
- 7 Application Diagram
- 8 Approvals/Certifications
- 9 Related Documents
- 10 Packing
- 11 Ordering Information
- 12 History
BlueMod+S/AI
Hardware Reference
www.stollmann.de Page 19 of 52
3.9 Slow Clock Interface
Even though an external slow clock is not required for BLE operation, consumption of power during
power-down modes can be reduced by feeding the module with an optional 32,768 kHz slow clock
at pin XL-IN/SLCK, or connecting an XTAL (32,768kHz) and two capacitors C1, C2 at pins XL-IN
and XL-OUT.
3.9.1 SLCK Specification (External Supplied Signal)
• 32,768 kHz +/-250ppm; duty cycle 30...70%.
• Signal may be a sine wave, a clipped sine wave, a square wave or a rail-to-rail digital
signal. The amplitude must be at least 200mV
pp
. DC offset is not an issue as long as the
input voltage is between VSS and VDD at all times.
• connect signal SLCK to XL-IN/SLCK (A6) and leave XL-OUT (A5) open
3.9.2 32,768 kHz Crystal Oscillator Specification (32k XOSC)
Symbol Item Condition Limit Unit
Min Typ Max
f
NOM
Crystal Frequency T
amb
= 25°C 32,768 kHz
f
TOL
Frequency Tolerance for
BLE applications
including temperature
and aging
(1)
+/-250 ppm
C
L
Load Capacitance 9 12,5 pF
C0 Shunt Capacitance 2 pF
R
S
Equivalent Series Resistor 50 80 kΩ
P
D
Drive Level 1 µW
C
pin
Input Cap. on XL-IN and
XL-OUT
4 pF
(1)
adjust crystal frequency by choosing correct value for C1, C2 (value depends on C
L
of crystal
and layout)
Table 4: 32,768kHz Crystal Oscillator
The module’s firmware will detect the presence of a slow clock during the boot process and switch
behavior appropriately.