Please see the attached PDF for the answers to the following questions:
1 What is the main difference between the Si5334, Si5335, and Si5338?
2 Where is the RoHs, REACH, or other material related compliance information for the Si5334, Si5335, and Si5338?
3 Where is the FIT information for the Si5334, Si5335, and Si5338?
4 How can I get a Si5334, Si5335, and Si5338 with a custom startup frequency?
5 What is the default I2C Address of the Si5338 when the part does not have an I2C_LSB pin or a custom address?
6 What finish is used on the contacts of the Si5334, Si5335, or Si5338?
7 How can I burn the NVM on a blank Si5338 part?
8 Will the ClockBuilder Pro Field Programmer (CBPROG-DONGLE) work with the Si5334, Si5335, or Si5338?
9 Where can I find software for the Si5338 Field Programmer?
10 How can I use a CBPro project file with the Field Programmer?
11 Does the Si5338 support in-circuit NVM programming?
12 Can I import a Si5338 ClockBuilder Desktop NVM file into ClockBuilder Pro?
13 How do I control the Si5338-EVB?
14 What if I want a feature in my custom Si5334, Si5335, or Si5338 that is not configurable in ClockBuilder Pro?
15 What is the minimum slew rate for the power supply ramp on Vdd?
16 What power supply sequence/delay is required for Vdd and VDDOx?
17 What should unused VDDOx pins be connected to?
18 When an LOS or LOL occurs, will the outputs be squelched?
19 What do I need to communicate to a Si5338 via I2C?
20 How do I configure a Si5338 via I2C?
21 What is the Input-Output delay of the Si5335 in ZDB and NZDB modes?
22 Can the Si5335/Si5338 clock generators support spread spectrum inputs?