Details

---

BUY MC10H171P https://www.utsource.net/itm/p/1713825.html
Dual Binary 1-4 Decoder Low; Package: PDIP-16; No of Pins: 16; Container: Rail; Qty per Container: 25

Parameter	Symbol	Min	Typical	Max	Unit
Supply Voltage	Vcc	2.7	-	5.5	V
Operating Temperature	Toper	-40	-	85	°C
Storage Temperature	Tstg	-65	-	150	°C
Output Current (Source)	Iout	-	25	50	mA
Output Current (Sink)	Iout	-	25	50	mA
Propagation Delay Time	tpd	-	20	35	ns
Power Consumption	Pd	-	10	-	mW
Input Voltage (High)	VIH	3.5	-	5.5	V
Input Voltage (Low)	VIL	0	-	1.5	V
Output Voltage (High)	VOH	2.4	-	Vcc-0.1	V
Output Voltage (Low)	VOL	0	-	0.4	V

Instructions for Using MC10H171P

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 voltage fluctuations that could affect performance.

2. Temperature Considerations:

   • The operating temperature range is from -40°C to 85°C. Ensure the device is used within this range to prevent damage.
   • Store the device in temperatures between -65°C and 150°C.

3. Output Current:

   • The device can source or sink up to 50mA per output, with a typical current of 25mA.
   • Ensure the load does not exceed these limits to avoid overheating or damage.

4. Propagation Delay:

   • The propagation delay time (tpd) is typically 20ns, with a maximum of 35ns.
   • This should be considered in timing-sensitive applications.

5. Power Consumption:

   • The typical power consumption is 10mW. Ensure adequate heat dissipation if the device is used in high-power applications.

6. Input Voltage Levels:

   • For a logic high input, the voltage should be at least 3.5V.
   • For a logic low input, the voltage should be no more than 1.5V.

7. Output Voltage Levels:

   • The output voltage for a high state (VOH) is at least 2.4V and can go up to Vcc - 0.1V.
   • The output voltage for a low state (VOL) is no more than 0.4V.

8. Handling and Installation:

   • Handle the device with care to avoid static discharge, which can damage the internal components.
   • Follow proper soldering techniques to ensure reliable connections and prevent thermal stress.

9. Testing and Verification:

   • After installation, verify the operation of the device by checking the output voltages and currents under various conditions.
   • Use a multimeter or oscilloscope to monitor the signals and ensure they meet the specified parameters.

10. Compliance and Standards:

    • Ensure the device complies with relevant safety and regulatory standards for your application.
    • Refer to the datasheet for any additional compliance information.

(For reference only)