Details

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BUY NJM4558D https://www.utsource.net/itm/p/12532839.html

Parameter	Symbol	Conditions	Min	Typical	Max	Unit
Supply Voltage	VCC	-	2.0	-	16.0	V
Quiescent Current	ICC	VCC = 卤15V, no signal	-	2.5	-	mA
Input Voltage Range	VI	-	VEE + 1.5	-	VCC - 1.5	V
Output Voltage Swing	VO	Load = 10k惟	VEE + 2.0	-	VCC - 2.0	V
Input Offset Voltage	VIO	VCC = 卤15V	-	3.0	-	mV
Input Bias Current	IB	VCC = 卤15V	-	100	-	nA
Input Impedance	ZI	VCC = 卤15V	-	2	-	M惟
Slew Rate	SR	VCC = 卤15V	-	0.5	-	V/渭s
Large Signal Voltage Gain	AV	VCC = 卤15V, RL = 10k惟	-	100	-	dB
Common Mode Rejection Ratio	CMRR	VCC = 卤15V	-	70	-	dB
Power Supply Rejection Ratio	PSRR	VCC = 卤15V	-	80	-	dB
Operating Temperature Range	TA	-	-40	-	85	掳C

Instructions for Use:

1. Power Supply:

   • The NJM4558D can operate with a supply voltage ranging from 2.0V to 16.0V. For optimal performance, use a dual supply (e.g., 卤15V).

2. Quiescent Current:

   • The quiescent current is typically 2.5mA when the supply voltage is 卤15V. Ensure that the power supply can handle this current.

3. Input Voltage Range:

   • The input voltage should be within the range of V_EE + 1.5V to V_CC - 1.5V to avoid clipping or damage.

4. Output Voltage Swing:

   • The output voltage swing is limited to V_EE + 2.0V to V_CC - 2.0V under a load of 10k惟. Ensure that the load resistance is appropriate for your application.

5. Input Offset Voltage:

   • The typical input offset voltage is 3.0mV. This can affect the accuracy of the amplifier, especially in precision applications.

6. Input Bias Current:

   • The typical input bias current is 100nA. This is important for high-impedance sources to minimize loading effects.

7. Input Impedance:

   • The input impedance is typically 2M惟, which is suitable for most applications but may need to be considered in high-impedance circuits.

8. Slew Rate:

   • The typical slew rate is 0.5V/渭s, which limits the maximum rate of change of the output voltage. This is important for high-frequency signals.

9. Large Signal Voltage Gain:

   • The typical large signal voltage gain is 100dB, indicating a high gain suitable for amplifying small signals.

10. Common Mode Rejection Ratio (CMRR):

    • The typical CMRR is 70dB, which indicates good rejection of common-mode signals, useful in noisy environments.

11. Power Supply Rejection Ratio (PSRR):

    • The typical PSRR is 80dB, indicating good rejection of power supply noise.

12. Operating Temperature Range:

    • The operating temperature range is from -40掳C to 85掳C. Ensure that the ambient temperature stays within this range to avoid thermal stress.

13. Handling Precautions:

    • Handle the NJM4558D with care to avoid static discharge, which can damage the internal components.
    • Ensure proper heat dissipation if the device is used in high-power applications.

14. Mounting:

    • Mount the device on a PCB with appropriate traces and vias to ensure good electrical connections and thermal management.

15. Testing:

    • Before finalizing the design, test the circuit under various conditions to ensure stability and performance meet the requirements.

(For reference only)