This application note and online calculator demonstrates the calculations required to convert the raw analog signals from the five monitored channels sensors' to a digital format required by optical standard SFF-8472. An understanding of the data sheet for the DS1858 and optical standard SFF-8472 is required before continuing with these conversions. IntroductionThe accompanying calculator converts the DS1858 analog signals (temperature, VCC, MON1, MON2, and MON3) to hexadecimal. The conversion utility also converts back from hexadecimal to analog. Additionally, the worksheet provides the same capability for SFF-8472 conversions specific to power (received and transmitted), and bias current. Using the WorksheetAll input cells have a double-lined border. The converted values are in bold. Hexadecimal inputs have an MSB and LSB input. An analog input that is out of range results in an "Overscale" display in the answer cell.
DS1858 analog variables are converted to 16-bit hex and rounded to the nearest 8 LSB multiple, since the A/D is a 12-bit converter, and the 12-bit data is averaged four times. The SFF-8472 16-bit conversions are made to within 1 LSB.
The link to the calculator is below. When prompted for username and password, log on as an anonymous user.
http://files.dalsemi.com/system_extension/AN240/DS1858_Calculator.xls
Links to other application notes for the DS1858:
App Note 166: Interfacing Digitally Controlled Potentiometers and Resistors to Laser Drivers (DS1858)
App Note 174: Monitor Calibration in Fiber Optic Applications (DS1858)
App Note 210: Implementing Internal Calibration Using the DS1858 (DS1858)
HFRD-03.0: Reference Design: Multi-Rate (1Gbps - 2.7Gbps) Small Form Factor Pluggable (SFP) Transmitter (DS1858)
App Note 228: How to Interpret DS1854, DS1857, and DS1858 Temperature and Voltage Readings (DS1858)
A link to the complete list of nonvolatile and volatile digital pots is below. http://www.maxim-ic.com/DigitalPotentiometers.cfm
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