WM8311GEB/V Wolfson Microelectronics, WM8311GEB/V Datasheet - Page 45
WM8311GEB/V
Manufacturer Part Number
WM8311GEB/V
Description
POWER MANAGEMENT SUBSYSTEM, 121BGA
Manufacturer
Wolfson Microelectronics
Datasheet
1.WM8311GEBV.pdf
(291 pages)
Specifications of WM8311GEB/V
Supply Voltage
5.5V
No. Of Step-down Dc - Dc Converters
4
No. Of Ldo Regulators
7
Digital Ic Case Style
BGA
No. Of Pins
121
No. Of Regulated Outputs
9
Operating Temperature Range
-40°C To
Rohs Compliant
Yes
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Pre-Production
13 CLOCKING AND OSCILLATOR CONTROL
13.1 GENERAL DESCRIPTION
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The WM8311 incorporates a 32.768kHz crystal oscillator in order to maintain the Real Time Clock
(RTC). An external crystal is normally required. Alternatively, a 32.768kHz signal may be input
directly on the XTI pin. The crystal oscillator and RTC are enabled at all times, including the OFF and
BACKUP power states. It is possible to disable the crystal oscillator in BACKUP for power-saving
RTC ‘unclocked’ mode if desired. The WM8311 clock functions are illustrated in Figure 16.
Figure 16 Clocking Configuration
The 32.768kHz crystal oscillator is enabled using the XTAL_ENA register. The crystal oscillator is
enabled in the OFF, ON and SLEEP states when XTAL_ENA is set. The status of the crystal
oscillator in BACKUP is selected using the XTAL_BKUPENA register.
Note that the XTAL_ENA field is set via OTP/DBE settings only; it cannot be changed by writing to
the control register. Also, if an external 32.768kHz signal is connected as an input to the XTI pin, and
the crystal is omitted, it is still required to set XTAL_ENA = 1 for normal operation.
The crystal oscillator can be disabled in the BACKUP state by setting the XTAL_BKUPENA register
bit to 0. This feature may be used to minimise the device power consumption in the BACKUP state,
as described in Section 20.5. The crystal oscillator is maintained in the BACKUP state if both
XTAL_ENA and XTAL_BKUPENA are set to 1.
A clock output signal CLKOUT is provided, for the purpose of clocking other devices. This output
may be driven by the 32.768kHz oscillator or by the output of a Frequency Locked Loop (FLL). The
FLL provides a flexible capability to generate a new clock signal either from the 32.768kHz oscillator
or from an external input CLKIN. The FLL is tolerant of jitter and may be used to generate a stable
clock signal from a less stable input reference. The FLL output can be routed to the CLKOUT pin.
The CLKOUT signal can be enabled or disabled directly by writing to the CLKOUT_ENA register in
the ON or SLEEP power states. The CLKOUT can also be controlled as part of the power state
transitions using the CLKOUT_SLOT and CLKOUT_SLP_SLOT register fields. See Section 11.3 for
a description of the state transition timeslots.
The CLKOUT pin may be configured as a CMOS output or as an Open-Drain output. At high
frequencies, the CMOS output is recommended. The CLKOUT signal is referenced to the DBVDD
power domain.
If the XTAL_INH bit is set, then an ‘ON’ state transition is inhibited until the CLKOUT output is valid.
(Note that CLKOUT may be the crystal oscillator output, or may be the FLL output.). This may be
desirable if the CLKOUT signal is used as a clock for another circuit, to ensure that CLKOUT is
present before the ‘ON’ state transition occurs.
The CLKOUT control fields are described in Table 16. Some of these controls may also be stored in
the integrated OTP memory. See Section 14 for details.
The 32.768kHz oscillator may also be output on a GPIO pin, as described in Section 21. Note that a
GPIO pin configured as 32.768kHz output will continue to output the oscillator clock in the OFF
power state; this may be used to provide clocking to the processor in the OFF state. The CLKOUT
output is always disabled in the OFF power state.
PP, December 2009, Rev 3.0
WM8311
45
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