SE5230DR2G ON Semiconductor, SE5230DR2G Datasheet - Page 8

SE5230DR2G

Manufacturer Part Number

SE5230DR2G

Description

IC OP AMP LOW VOLTAGE 8-SOIC

Manufacturer

ON Semiconductor

Type

General Purpose Amplifierr

Datasheet

1.NE5230NG.pdf (18 pages)

Specifications of SE5230DR2G

Amplifier Type

General Purpose

Number Of Circuits

Output Type

Rail-to-Rail

Slew Rate

0.25 V/µs

Gain Bandwidth Product

600kHz

Current - Input Bias

40nA

Voltage - Input Offset

400µV

Current - Supply

1.1mA

Current - Output / Channel

32mA

Voltage - Supply, Single/dual (±)

1.8 V ~ 15 V, ±0.9 V ~ 7.5 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

8-SOIC (3.9mm Width)

Number Of Channels

Voltage Gain Db

126.02 dB

Common Mode Rejection Ratio (min)

85 dB

Input Offset Voltage

3 mV

Operating Supply Voltage

3 V, 5 V, 9 V, 12 V

Supply Current

1.6 mA

Maximum Power Dissipation

500 mW

Maximum Operating Temperature

+ 125 C

Mounting Style

SMD/SMT

Maximum Dual Supply Voltage

+/- 7.5 V

Minimum Operating Temperature

- 40 C

Rail/rail I/o Type

Number Of Elements

Unity Gain Bandwidth Product

0.6MHz

Common Mode Rejection Ratio

85dB

Input Bias Current

150nA

Single Supply Voltage (typ)

3/5/9/12V

Dual Supply Voltage (typ)

±3/±5V

Power Dissipation

500mW

Voltage Gain In Db

126.02dB

Power Supply Rejection Ratio

85dB

Power Supply Requirement

Single/Dual

Shut Down Feature

Single Supply Voltage (min)

1.8V

Single Supply Voltage (max)

15V

Dual Supply Voltage (min)

±0.9V

Dual Supply Voltage (max)

±7.5V

Technology

Bipolar

Operating Temp Range

-40C to 125C

Operating Temperature Classification

Automotive

Mounting

Surface Mount

Pin Count

Package Type

SOIC N

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

-3db Bandwidth

Lead Free Status / Rohs Status

Details

Available stocks

Company

Part Number

Manufacturer

Quantity

Price

Company:

Meier Automation Equipment Co., Limited

Part Number:

SE5230DR2G

Manufacturer:

ON/安森美

Quantity:

20 000

Current page: 8 of 18
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THERMAL CONSIDERATIONS

capabilities of each package should be considered.

ON Semiconductor does not recommend operation at die

temperatures above 110°C in the SO package because of its

inherently smaller package mass. Die temperatures of

150°C can be tolerated in all the other packages. With this

in mind, the following equation can be used to estimate the

die temperature:

Where

methods of mounting.

typical supply current is 1.1 mA (1.6 mA max). For

operation at supply voltages other than the maximum, see

the data sheet for I

is somewhat proportional to temperature and varies no more

than 100 mA between 25°C and either temperature extreme.

recommended is possible but will result in lower Mean Time

Between Failures (MTBF). This should be considered

before operating beyond recommended die temperature

because of the overall reliability degradation.

DESIGN TECHNIQUES AND APPLICATIONS

engineer to design into any type of system. The supply

current adjust pin (Pin 5) can be left open or tied through a

pot or fixed resistor to the most negative supply (i.e., ground

for single supply or to the negative supply for split supplies).

The minimum supply current is achieved by leaving this pin

open. In this state it will also decrease the bandwidth and

slew rate. When tied directly to the most negative supply, the

device has full bandwidth, slew rate and I

programming of the current−control pin depends on the

trade−offs which can be made in the designer’s application.

The graphs in Figures 3 and 4 will help by showing

bandwidth versus I

be varied anywhere over the range of 100 mA to 600 mA for

a supply voltage of 1.8 V. An external resistor can be

inserted between the current control pin and the most

When using the NE5230, the internal power dissipation

See the packaging section for information regarding other

The maximum supply voltage for the part is 15 V and the

Operation at higher junction temperatures than that

The NE5230 is a very user−friendly amplifier for an

amb

− 100°C/W for the plastic DIP.

= Ambient Temperature

= Die Temperature

= Power Dissipation

= (I

= Package Thermal Resistance

= 270°C/W for SO−8 in PC Board Mounting

T j + T amb ) (P D

x V

versus V

. As can be seen, the supply current can

)

curves. The supply current

q JA )

(eq. 1)

http://onsemi.com

. The

negative supply. The resistor can be selected between 1.0 W

to 100 kW to provide any required supply current over the

indicated range. In addition, a small varying voltage on the

bias current control pin could be used for such exotic things

as changing the gain−bandwidth for voltage controlled low

pass filters or amplitude modulation. Furthermore, control

over the slew rate and the rise time of the amplifier can be

obtained in the same manner. This control over the slew rate

also changes the settling time and overshoot in pulse

response applications. The settling time to 0.1% changes

from 5.0 ms at low bias to 2.0 ms at high bias. The supply

current control can also be utilized for wave−shaping

applications such as for pulse or triangular waveforms. The

gain−bandwidth can be varied from between 250 kHz at low

bias to 600 kHz at high bias current. The slew rate range is

0.08 V/ms at low bias and 0.25 V/ms at high bias.

Figure 3. Unity Gain Bandwidth vs. Power Supply

Figure 4. I

800

700

600

500

400

300

200

100

1.4

1.2

1.0

0.8

0.6

0.4

0.2

0.0

100

Resistor for Several Supply Voltages

− 15V

− 12V

− 9V

− 6V

− 3V

− 2V

− 1.8V

Current for V

Current vs. Bias Current Adjusting

UNITY GAIN BANDWIDTH (kHz)

200

ADJ

(W)

300

= ±0.9 V

− 25°C

400 500 600700

SE5230DR2G ON Semiconductor, SE5230DR2G Datasheet - Page 8

SE5230DR2G

Specifications of SE5230DR2G

Available stocks

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