Si5338Q-A-GM Silicon Laboratories Inc, Si5338Q-A-GM Datasheet - Page 22
Si5338Q-A-GM
Manufacturer Part Number
Si5338Q-A-GM
Description
Clock Generators & Support Products I2C-prgrmmbl clock generatr .16-200 MHz
Manufacturer
Silicon Laboratories Inc
Datasheet
1.SI5338-EVB.pdf
(42 pages)
Specifications of Si5338Q-A-GM
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Si5338
3.5.4. Modifying a MultiSynth Output Divider Ratio/
The output MultiSynth dividers of a configured and
phase-locked Si5338 can be modified without relocking
the PLL (i.e. without following section 3.5.3). This
feature allows any of the four output frequencies to be
modified without disturbing the others.
In this case, only write the set of registers associated
with the output MultiSynth divider (See AN411). The
feedback MultiSynth must not be modified unless
following the procedure in Section 3.5.3.
To avoid intermediate frequencies, it is recommended
that the output be disabled before changing the divider
ratio (see Register 230).
Any output MultiSynth that is reconfigured will lose its
phase alignment with the other outputs. SOFT_RESET
can be used to resynchronize the outputs (see "3.9.
Reset Options" on page 25).
The Si5338 can produce a glitchless frequency change
by using the Frequency Increment/Decrement function
as
Decrement”.
3.5.5. Writing a Custom Configuration to NVM
An alternative to ordering an Si5338 with a custom NVM
configuration is to use the field programming kit
(Si5338/56-PROG-EVB) to write directly to the NVM of
a “blank” Si5338. Since NVM is an OTP memory, it can
only be written once. The default configuration can be
reconfigured by writing to RAM through the I
(see “3.5.2. Creating a New Configuration for RAM”).
3.6. Status Indicators
A logic-high interrupt pin (INTR) is available to indicate
a loss of signal (LOS) condition, a PLL loss of lock
(PLL_LOL) condition, or that the PLL is in process of
acquiring lock (SYS_CAL). PLL_LOL is held high when
the input frequency drifts beyond the PLL tracking
range. It is held low during all other times and during a
POR or soft_reset. SYS_CAL is held high during a POR
or SOFT reset so that no chattering occurs during the
locking process. As shown in Figure 10, a status
register at address 218 is available to help identify the
exact event that caused the interrupt pin to become
active. Register 247 is the sticky version of Register
218, and Register 6 is the interrupt mask for Register
218.
22
described
Frequency Configuration
in
“3.10.1.
Frequency
2
C interface
Increment/
Rev. 1.0
Figure 11 shows a typical connection with the required
pull-up resistor to VDD.
3.6.1. Using the INTR Pin in Systems with I
The INTR output pin is not latched and thus it should not
be a polled input to an MCU but an edge-triggered
interrupt. An MCU can process an interrupt event by
reading the sticky register 247 to see what event
caused the interrupt. The same register can be cleared
by writing zeros to the bits that were set. Individual
interrupt bits can be masked by register 6[4:0].
3.6.2. Using the INTR Pin in Systems without I
The INTR pin also provides a useful function in systems
that require a pin-controlled fault indicator. Pre-setting
the interrupt mask register allows the INTR pin to
become an indicator for a specific event, such as LOS
and/or LOL. Therefore, the INTR pin can be used to
indicate a single fault event or even multiple events.
3.7. Output Enable
There are two methods of enabling and disabling the
output drivers: Pin control, and I
3.7.1. Enabling Outputs Using Pin Control
The Si5338K/L/M devices provide an Output Enable pin
(OEB) as shown in Figure 12. Pulling this pin high will
turn all outputs off. The state of the individual drivers
when turned off is controllable. If an individual output is
set to always on, then the OEB pin will not have an
effect on that driver. Drive state options and always on
are explained in “3.7.2. Enabling Outputs through the
I
2
C Interface”.
218
Figure 11. INTR Pin with Required Pull-Up
1k
7
V
DD
6
Figure 10. Status Register
INTR
5
PLL_LOL
4
LOS_FDBK LOS_CLKIN
3
Control
Control & Memory
2
2
(OTP)
C control.
NVM
1
RAM
Sys
Cal
0
System Calibration
(Lock Acquisition)
Loss Of Signal
Clock Input
Loss Of Lock
Loss Of Signal
Feedback Input
2
C
2
C
Related parts for Si5338Q-A-GM
Image
Part Number
Description
Manufacturer
Datasheet
Request
R
Part Number:
Description:
QFN 24/I/I2C-programmable clock generator, 0.16 - 200 MHz, 4 clock inputs
Manufacturer:
Silicon Laboratories Inc
Datasheet:
Part Number:
Description:
QFN 24/I/I2C-programmable clock generator
Manufacturer:
Silicon Laboratories Inc
Part Number:
Description:
DUAL FREQUENCY CRYSTAL OSCILLATOR
Manufacturer:
Silicon Laboratories
Datasheet:
Part Number:
Description:
SMD/C/SINGLE-ENDED OUTPUT SILICON OSCILLATOR
Manufacturer:
Silicon Laboratories Inc
Part Number:
Description:
Manufacturer:
Silicon Laboratories Inc
Datasheet:
Part Number:
Description:
N/A N/A/SI4010 AES KEYFOB DEMO WITH LCD RX
Manufacturer:
Silicon Laboratories Inc
Datasheet:
Part Number:
Description:
N/A N/A/SI4010 SIMPLIFIED KEY FOB DEMO WITH LED RX
Manufacturer:
Silicon Laboratories Inc
Datasheet:
Part Number:
Description:
N/A/-40 TO 85 OC/EZLINK MODULE; F930/4432 HIGH BAND (REV E/B1)
Manufacturer:
Silicon Laboratories Inc
Part Number:
Description:
EZLink Module; F930/4432 Low Band (rev e/B1)
Manufacturer:
Silicon Laboratories Inc
Part Number:
Description:
I/4460 10 DBM RADIO TEST CARD 434 MHZ
Manufacturer:
Silicon Laboratories Inc
Part Number:
Description:
I/4461 14 DBM RADIO TEST CARD 868 MHZ
Manufacturer:
Silicon Laboratories Inc
Part Number:
Description:
I/4463 20 DBM RFSWITCH RADIO TEST CARD 460 MHZ
Manufacturer:
Silicon Laboratories Inc
Part Number:
Description:
I/4463 20 DBM RADIO TEST CARD 868 MHZ
Manufacturer:
Silicon Laboratories Inc
Part Number:
Description:
I/4463 27 DBM RADIO TEST CARD 868 MHZ
Manufacturer:
Silicon Laboratories Inc