Details

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BUY AD5624RBRMZ-3 https://www.utsource.net/itm/p/12612199.html

Parameter	Symbol	Min	Typ	Max	Unit	Description
Supply Voltage	VDD	2.7	-	5.5	V	Power supply voltage
Output Voltage Range	VOUT	0	-	VDD	V	Output voltage range
Digital Input Voltage	VIN	1.6	-	5.5	V	Digital input voltage
Operating Temperature	Toper	-40	-	85	°C	Operating temperature range
Storage Temperature	Tstg	-65	-	150	°C	Storage temperature range
Output Settling Time	tset	-	3	-	μs	Time for output to settle to within ±1 LSB after a code change
Differential Nonlinearity (DNL)	DNL	-1	0	+1	LSB	Maximum deviation from ideal step size between adjacent codes
Integral Nonlinearity (INL)	INL	-1	0	+1	LSB	Maximum deviation of actual transfer function from ideal straight line
Output Impedance	Rout	-	1	-	kΩ	Output impedance at DC
Power Dissipation	Pdiss	-	1.5	-	mW	Power dissipation at VDD = 5V, all outputs at mid-scale
Shutdown Current	Ishutdown	-	0.5	-	μA	Supply current in shutdown mode
Reference Input Impedance	Rref	-	10	-	kΩ	Reference input impedance

Instructions for Using AD5624RBRMZ-3

1. Power Supply:

   • Ensure the supply voltage (VDD) is within the range of 2.7V to 5.5V.
   • Connect VDD to the power supply and GND to ground.

2. Digital Inputs:

   • The digital input voltage (VIN) should be between 1.6V and 5.5V.
   • Connect the digital inputs to a compatible microcontroller or logic circuit.

3. Output Configuration:

   • The output voltage (VOUT) will range from 0V to VDD.
   • Use the appropriate control signals to set the desired output voltage.

4. Temperature Considerations:

   • Operate the device within the temperature range of -40°C to 85°C.
   • Store the device within the temperature range of -65°C to 150°C.

5. Settling Time:

   • Allow 3 μs for the output to settle to within ±1 LSB after a code change.

6. Linearity:

   • Ensure that the differential nonlinearity (DNL) and integral nonlinearity (INL) are within ±1 LSB for accurate output.

7. Output Impedance:

   • The output impedance is approximately 1 kΩ at DC. Consider this when designing your load circuit.

8. Power Dissipation:

   • The device dissipates approximately 1.5 mW at VDD = 5V with all outputs at mid-scale.

9. Shutdown Mode:

   • To enter shutdown mode, use the appropriate control signal. The shutdown current is approximately 0.5 μA.

10. Reference Input:

    • The reference input impedance is approximately 10 kΩ. Ensure the reference voltage source can drive this impedance.

By following these instructions, you can ensure optimal performance and reliability of the AD5624RBRMZ-3 DAC.

(For reference only)