LTC6104HMS8#PBF Linear Technology, LTC6104HMS8#PBF Datasheet - Page 9

LTC6104HMS8#PBF

Manufacturer Part Number

LTC6104HMS8#PBF

Description

IC AMP CURRENT SENSE 8-MSOP

Manufacturer

Linear Technology

Datasheet

1.LTC6104CMS8PBF.pdf (16 pages)

Specifications of LTC6104HMS8#PBF

Amplifier Type

Current Sense

Number Of Circuits

Gain Bandwidth Product

200kHz

Current - Input Bias

100nA

Voltage - Input Offset

85µV

Current - Supply

640µA

Current - Output / Channel

1mA

Voltage - Supply, Single/dual (±)

4 V ~ 60 V, ±2 V ~ 30 V

Operating Temperature

-40°C ~ 125°C

Mounting Type

Surface Mount

Package / Case

8-MSOP, Micro8™, 8-uMAX, 8-uSOP,

No. Of Amplifiers

Input Bias Current

170nA

Output Current Per Channel

1mA

Input Offset Voltage

700ÂµV

Gain Db Max

5dB

Bandwidth

200kHz

Supply Voltage Range

4V To 60V

Supply Current

640ÂµA

Rohs Compliant

Yes

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Output Type

-3db Bandwidth

Slew Rate

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APPLICATIONS INFORMATION

Selection of External Input Resistor, R

The external input resistor, R

conductance of the current sense circuit.

while limiting the output current. At low supply voltage,

the largest expected sense voltage gives I

then the maximum output dynamic range is available.

Output dynamic range is limited by both the maximum

allowed output current and the maximum allowed output

voltage, as well as the minimum practical output signal. If

less dynamic range is required, then R

accordingly, reducing the maximum output current and

power dissipation. If low sense currents must be resolved

accurately in a system that has very wide dynamic range,

a smaller R

allows may be used if the maximum current is limited in

another way, such as with a Schottky diode across R

(Figure 3). This will reduce the high current measurement

accuracy by limiting the result, while increasing the low

current measurement resolution. This approach can be

helpful in cases where occasional large burst currents

may be ignored.

Care should be taken when designing the printed circuit

board layout to minimize input trace resistance (to Pins

5, 6, 7 and 8). Trace and interconnect impedances to the

OUT

Figure 3. Shunt Diodes Limit Maximum Input Voltage to Allow

Better Low Input Resolution Without Overranging

For example if R

Since I

OUT

should be chosen to allow the required resolution

may be as much as ±1mA. By setting R

= ±

OUT

mA for V

than the maximum current speciﬁ cation

LOAD

SENSE

100Ω

transconductance g

SENSE

= ±

6104 F03

100

then I

BATTERY

, controls the trans-

OUT

can be increased

OUT

100

such that

= ±1mA,

E E NSE

Ω

R R

SENSE

–IN terminals will increase the effective R

a gain error, especially for small R

internal device resistance will add approximately 0.3Ω

to R

Trace and interconnect impedances to the +INB terminal will

have an effect on offset error. These errors are described

in more detail later in this data sheet.

Selection of External Output Resistor, R

The output resistor, R

rent is converted to voltage. V

voltage range must ﬁ rst be considered. If the circuit that

is driven by the output does not limit the output voltage

range, then R

output voltage range does not exceed the LTC6104 maxi-

mum output voltage range (see Electrical Characteristics).

If the following circuit is a buffer or ADC with limited input

range, then R

allowed maximum input range of this circuit.

In addition, the output impedance is determined by R

If the circuit to be driven has high enough input imped-

ance, then almost any useful output impedance will be

acceptable. However, if the driven circuit has relatively low

input impedance, or draws spikes of current, such as an

ADC might do, then a lower R

in order to preserve the accuracy of the output. As an

example, if the input impedance of the driven circuit is

100 times R

by 1% since:

Selection of External Voltage Reference, V

Selection of external reference voltage should be consid-

ered together with selection of R

Example:

Given the conditions: I

REF

. In choosing an output resistor, the maximum output

OUT

–

OUT

REF

OUT

, then the accuracy of V

must be chosen such that the maximum

must be chosen so that V

OUT

•

, determines how the output cur-

OUT

= –1mA to 1mA, V

OUT

•

100

101

OUT

IN DRIVEN

is simply I

IN DRI

value may be required

(

values. In addition,

OUT

0 99

LTC6104

V V EN

OUT

will be reduced

value, causing

)

•

OUT

REF

OUT

= 12V.

• R

is in the

•

OUT

6104f

LTC6104HMS8#PBF Linear Technology, LTC6104HMS8#PBF Datasheet - Page 9

LTC6104HMS8#PBF

Specifications of LTC6104HMS8#PBF

Available stocks

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