Details

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Dual LVDS Transmitter 8-SOIC -40 to 85

Parameter	Symbol	Conditions	Min	Typical	Max	Unit
Supply Voltage	Vcc	Operating	2.7	-	5.5	V
Operating Temperature	Toper	-	-40	-	85	°C
Storage Temperature	Tstg	-	-65	-	150	°C
Input Current (Typical)	Iin	Vcc = 3.3V	-	250	-	μA
UART Interface Baud Rate	fbaud	-	300	-	230400	bps
Data Bits	N	-	5	-	8	bits
Stop Bits	S	-	1	-	2	bits
Parity	P	-	None	-	Odd/Even	-
Wake-up Time from Power-down	twakeup	Vcc = 3.3V, 25°C	-	100	-	μs
Power-down Current	Ipd	Vcc = 3.3V, 25°C	-	0.1	-	μA

Instructions for Using the MAX3100EEE

1. Power Supply:

   • Ensure the supply voltage (Vcc) is within the range of 2.7V to 5.5V.
   • Use a stable power source to avoid fluctuations that could affect performance.

2. Temperature Considerations:

   • The operating temperature range is from -40°C to 85°C.
   • Store the device in temperatures ranging from -65°C to 150°C.

3. UART Configuration:

   • Set the baud rate (fbaud) between 300 bps and 230400 bps.
   • Choose the number of data bits (N) from 5 to 8.
   • Select the number of stop bits (S) as either 1 or 2.
   • Configure parity (P) as None, Odd, or Even.

4. Low Power Mode:

   • To enter power-down mode, set the appropriate control register bit.
   • The wake-up time from power-down mode is typically 100 μs.
   • The power-down current is typically 0.1 μA at 3.3V and 25°C.

5. Input Current:

   • The typical input current at 3.3V and 25°C is 250 μA.

6. Pin Configuration:

   • Refer to the datasheet for the pin configuration and ensure all pins are connected correctly.
   • Pay special attention to the UART interface pins (TX, RX, CTS, RTS).

7. Software Initialization:

   • Initialize the device by writing to the control registers according to the desired configuration.
   • Use the provided software examples or application notes for guidance.

8. Interrupt Handling:

   • Configure interrupt handling to manage events such as data reception, transmission completion, and error conditions.
   • Enable interrupts by setting the appropriate bits in the control registers.

9. Error Handling:

   • Monitor error flags in the status registers to detect and handle errors such as framing errors, parity errors, and buffer overflows.

10. Testing and Validation:

    • Perform functional tests to verify the UART communication and power management features.
    • Use a logic analyzer or oscilloscope to monitor signals and ensure correct operation.

For detailed information, refer to the MAX3100EEE datasheet and application notes provided by Maxim Integrated.

(For reference only)