SI5338B-A-GM Silicon Laboratories Inc, SI5338B-A-GM Datasheet - Page 20
SI5338B-A-GM
Manufacturer Part Number
SI5338B-A-GM
Description
IC CLK GEN QUAD 350MHZ 24-QFN
Manufacturer
Silicon Laboratories Inc
Type
Clock Generatorr
Datasheet
1.SI5338B-A-GM.pdf
(42 pages)
Specifications of SI5338B-A-GM
Pll
Yes
Input
CML, HCSL, HSCL, LVDS, LVPECL, Crystal
Output
CMOS, HCSL. HSTL. LVDS. LVPECL. SSTL
Number Of Circuits
1
Ratio - Input:output
3:4
Differential - Input:output
Yes/Yes
Frequency - Max
350MHz
Divider/multiplier
Yes/Yes
Voltage - Supply
1.71 V ~ 3.63 V
Operating Temperature
-40°C ~ 85°C
Mounting Type
Surface Mount
Package / Case
24-QFN
Frequency-max
350MHz
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
For Use With
336-1747 - KIT PROG FIELD SI5338/4/0336-1556 - BOARD EVALUATION SI5338
Lead Free Status / Rohs Status
Lead free / RoHS Compliant
Other names
336-1554-5
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
SI5338B-A-GM
Manufacturer:
Silicon Labs
Quantity:
135
Si5338
3.5.1. Ordering a Custom NVM Configuration
The Si5338 is orderable with a factory-programmed
custom NVM configuration. This is the simplest way of
using the Si5338 since it generates the desired output
frequencies at power-up or after a power-on reset
(POR). This default configuration can be reconfigured in
RAM through the I
“3.5.2. Creating a New Configuration for RAM”).
Custom 7-bit I
Note that for the A/B/C devices, the I
is the logical “or” of the I
and the state of the I2C_LSB pin. If I2C_LSB pin
functionality is required, custom I
only be even numbers. For all other variants of the
device, custom I
numbers. See “AN411: Configuring the Si5338” for
more details.
The first step in ordering a custom device is generating
an NVM file which defines the input and output clock
frequencies and signal formats. This is easily done
using the ClockBuilder Desktop software (see "3.1.1.
ClockBuilder™ Desktop Software" on page 16). This
GUI based software generates an NVM file, which is
used by the factory to manufacture custom parts. Each
custom part is marked with a unique part number
identifying the specific configuration (e.g., Si5338C-
A00100-GM). Consult your local sales representative
for more details on ordering a custom Si5338.
3.5.2. Creating a New Configuration for RAM
Any Si5338 device can be configured by writing to
registers in RAM through the I
factory programmed device must be configured in this
manner.
The first step is to determine all the register values for
the required configuration. This can be accomplished by
one of two methods.
1. Create a device configuration (register map) using
20
ClockBuilder Desktop (v3.0 or later; see "3.1.1.
ClockBuilder™ Desktop Software" on page 16).
a. Configure the frequency plan.
b. Configure the output driver format and supply
c. Configure frequency and/or phase inc/dec (if
d. Configure spread spectrum (if desired).
e. Configure for zero-delay mode (if desired,
f.
g. Save the configuration using the Options >
voltage.
desired).
see "3.10.6. Zero-Delay Mode" on page 26).
If needed go to the Advanced tab and make
additional configurations.
2
C addresses may also be requested.
2
C addresses may be even or odd
2
C interface after power-up (see
2
C address LS bit in Register 27
2
C interface. A non-
2
C addresses may
2
C LS bit address
Rev. 1.0
2. Create a device configuration, register by register,
3.5.3. Writing a Custom Configuration to RAM
Writing a new configuration (register map) to the RAM
consists of pausing the LOL state-machine, writing new
values to the IC accounting for the write-allowed mask
(see AN411, “14. Si5338 Registers”), validating the
input clock or crystal, locking the PLL to the input with
the new configuration, restarting the LOL state-
machine, and calibrating the VCO for robust operation
across temperature. The flow chart in Figure 9
enumerates the details:
Note: The write-allowed mask specifies which bits must be
using AN411.
read and modified before writing the entire register
byte (a.k.a. read-modify-write). “AN428: Jump Start: In-
System, Flash-Based Programming for Silicon Labs’
Timing Products” illustrates the procedure defined in
Section 3.5.2 with ANSI C code.
Save Register Map File or Options > Save C
code Header.
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