Details

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BUY SN74HC367N https://www.utsource.net/itm/p/1701147.html
Quad 2-Input NAND Schmitt Trigger; Package: TSSOP-14; No of Pins: 14; Container: Tape and Reel; Qty per Container: 2500

Parameter	Symbol	Conditions	Min	Typ	Max	Unit
Supply Voltage	VCC	Continuous operation	2.0	-	6.0	V
Input Voltage (High Level)	VIH	VIL = 0.8V	2.0	-	VCC	V
Input Voltage (Low Level)	VIL	VIH = 2.0V	0	-	0.8	V
Output Voltage (High Level)	VOH	IO = -4mA	2.4	-	VCC - 0.1	V
Output Voltage (Low Level)	VOL	IO = 4mA	0	-	0.1	V
Input Leakage Current	IIL	VI = 0V	-1	-	1	μA
Output Leakage Current	IOL	VO = 0V	-10	-	10	μA
Propagation Delay Time	tpd	VCC = 4.5V, VI = VCC/2	-	11	-	ns
Power Dissipation	PD	Continuous operation	-	-	360	mW
Operating Temperature Range	TA	Continuous operation	-40	-	85	°C
Storage Temperature Range	TSTG	Storage	-65	-	150	°C

Instructions for Use:

1. Supply Voltage (V_CC):

   • Ensure the supply voltage is within the range of 2.0V to 6.0V for reliable operation.

2. Input Voltages:

   • For a high-level input, ensure V_IH is at least 2.0V.
   • For a low-level input, ensure V_IL is no more than 0.8V.

3. Output Voltages:

   • When the output is high, V_OH should be at least 2.4V and can go up to V_CC - 0.1V.
   • When the output is low, V_OL should be no more than 0.1V.

4. Current Ratings:

   • Input leakage current (I_IL) should not exceed ±1μA.
   • Output leakage current (I_OL) should not exceed ±10μA.

5. Propagation Delay:

   • The typical propagation delay time (t_pd) is 11ns at V_CC = 4.5V.

6. Power Dissipation:

   • The maximum power dissipation (P_D) is 360mW.

7. Temperature Ranges:

   • The operating temperature range (T_A) is from -40°C to 85°C.
   • The storage temperature range (T_STG) is from -65°C to 150°C.

8. Handling and Storage:

   • Store the device in a dry, cool place to avoid damage.
   • Handle with care to prevent static discharge, which can damage the device.

9. Circuit Design:

   • Ensure proper decoupling capacitors are used near the power pins to filter out noise and stabilize the supply voltage.
   • Use appropriate pull-up or pull-down resistors for inputs that are not actively driven.

10. Testing:

    • Test the device under specified conditions to ensure it meets the required performance parameters.

(For reference only)