LT1800CS5#TRMPBF Linear Technology, LT1800CS5#TRMPBF Datasheet - Page 13

LT1800CS5#TRMPBF

Manufacturer Part Number

LT1800CS5#TRMPBF

Description

IC OPAMP R-RIN/OUT LP TSOT-23-5

Manufacturer

Linear Technology

Datasheet

1.LT1800CS5TRMPBF.pdf (18 pages)

Specifications of LT1800CS5#TRMPBF

Amplifier Type

General Purpose

Number Of Circuits

Output Type

Rail-to-Rail

Slew Rate

23 V/µs

Gain Bandwidth Product

70MHz

Current - Input Bias

400nA

Voltage - Input Offset

1000µV

Current - Supply

1.8mA

Current - Output / Channel

50mA

Voltage - Supply, Single/dual (±)

2.3 V ~ 12.6 V, ±1.15 V ~ 6.3 V

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

TSOT-23-5, TSOT-5, TSOP-5

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

-3db Bandwidth

Other names

LT1800CS5#TRMPBFTR

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APPLICATIONS INFORMATION

output voltage is at half of either supply voltage (or the

maximum swing is less than 1/2 supply voltage). P

is given by:

Example: An LT1800 in a SOT-23 package operating on ±5V

supplies and driving a 50Ω load, the worst-case power

dissipation is given by:

The maximum ambient temperature that the part is al-

lowed to operate is:

Input Offset Voltage

The offset voltage will change depending upon which

input stage is active. The PNP input stage is active from

the negative supply rail to 1.2V of the positive supply rail,

then the NPN input stage is activated for the remaining

input range up to the positive supply rail during which

the PNP stage remains inactive. The offset voltage is

typically less than 75μV in the range that the PNP input

stage is active.

Input Bias Current

The LT1800 employs a patent-pending technique to trim

the input bias current to less than 250nA for the input

common mode voltage of 0.2V above negative supply

rail to 1.2V of the positive rail. The low input offset volt-

age and low input bias current of the LT1800 provide the

precision performance especially for high source imped-

ance applications.

Output

The LT1800 can deliver a large output current, so the short-

circuit current limit is set around 50mA to prevent damage

to the device. Attention must be paid to keep the junction

temperature of the IC below the absolute maximum rating

of 150°C (refer to the Power Dissipation section) when the

output is continuously short-circuited. The output of the

DMAX

= T

= 150°C – (0.165W • 250°C/W) = 108°C

= (10 • 4mA) + (2.5)

= (V

– (P

DMAX

• I

SMAX

• 250°C/W)

) + (V

/50 = 0.04 + 0.125 = 0.165W

/2)

DMAX

ampliﬁ er has reverse-biased diodes connected to each sup-

ply. If the output is forced beyond either supply, unlimited

current will ﬂ ow through these diodes. If the current is

transient and limited to several hundred mA, and the total

supply voltage is less than 12.6V, the absolute maximum

rating, no damage will occur to the device.

Overdrive Protection

When the input voltage exceeds the power supplies, two

pairs of crossing diodes D1 to D4 will prevent the output

from reversing polarity. If the input voltage exceeds either

power supply by 700mV, diode D1/D2 or D3/D4 will turn

on to keep the output at the proper polarity. For the phase

reversal protection to perform properly, the input current

must be limited to less than 10mA. If the ampliﬁ er is

severely overdriven, an external resistor should be used

to limit the overdrive current.

The LT1800’s input stages are also protected against a

large differential input voltage of 1.4V or higher by a pair

of back-back diodes D5/D8 to prevent the emitter-base

breakdown of the input transistors. The current in these

diodes should be limited to less than 10mA when they are

active. The worst-case differential input voltage usually

occurs when the input is driven while the output is shorted

to ground in a unity gain conﬁ guration. In addition, the

ampliﬁ er is protected against ESD strikes up to 3kV on

all pins by a pair of protection diodes on each pin that are

connected to the power supplies as shown in Figure 1.

Capacitive Load

The LT1800 is optimized for high bandwidth, low power

and precision applications. It can drive a capacitive load

of about 75pF in a unity gain conﬁ guration, and more for

higher gain. When driving a larger capacitive load, a resistor

of 10Ω to 50Ω should be connected between the output

and the capacitive load to avoid ringing or oscillation. The

feedback should still be taken from the output so that the

resistor will isolate the capacitive load to ensure stability.

Graphs on capacitive loads indicate the transient response

of the ampliﬁ er when driving capacitive load with a speci-

ﬁ ed series resistor.

LT1800

1800fa

LT1800CS5#TRMPBF Linear Technology, LT1800CS5#TRMPBF Datasheet - Page 13

LT1800CS5#TRMPBF

Specifications of LT1800CS5#TRMPBF

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