LT6109IMS-1#TRPBF Linear Technology, LT6109IMS-1#TRPBF Datasheet - Page 16

LT6109IMS-1#TRPBF

Manufacturer Part Number

LT6109IMS-1#TRPBF

Description

Manufacturer

Linear Technology

Datasheet

1.LT6109IMS-1TRPBF.pdf (28 pages)

Specifications of LT6109IMS-1#TRPBF

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LT6109-1/LT6109-2

APPLICATIONS INFORMATION

If the output current is very low and an input transient

occurs, there may be an increased delay before the

output voltage begins to change. The Typical Performance

Characteristics show that this delay is short and it can

be improved by increasing the minimum output current,

either by increasing R

the Typical Performance Characteristics are labeled with

respect to the initial sense voltage.

The speed is also affected by the external components.

Using a larger R

of R

that reducing R

effect of increasing the voltage gain of the circuit. If the

output capacitance is limiting the speed of the system, R

and R

the desired gain and provide more current to charge the

output capacitance.

The response time of the comparators is the sum of the

propagation delay and the fall time. The propagation

delay is a function of the overdrive voltage on the input

of the comparators. A larger overdrive will result in a

lower propagation delay. This helps achieve a fast system

response time to fault events. The fall time is affected by

the load on the output of the comparator as well as the

pull-up voltage.

The LT6109 amplifier has a typical response time of 500ns

and the comparators have a typical response time of 700ns.

When configured as a system, the amplifier output drives

the comparator input causing a total system response

time which is typically greater than that implied by the

individually specified response times. This is due to the

overdrive on the comparator input being determined by

the speed of the amplifier output.

Internal Reference and Comparators

The integrated precision reference and comparators com-

bined with the high precision current sense allow for rapid

and easy detection of abnormal load currents. This is often

critical in systems that require high levels of safety and

reliability. The LT6109 comparators are optimized for fault

detection and are designed with latching outputs. Latch-

ing outputs prevent faults from clearing themselves and

OUT

= I

OUT

OUTA

and any parasitic and/or load capacitance. Note

can be decreased together in order to maintain

• Z

OUT

or increasing R

where Z

will decrease the response time, since

SENSE

OUT

or decreasing R

is the parallel combination

OUT

will both have the

. Note that

require a separate system or user to reset the outputs. In

applications where the comparator output can intervene

and disconnect loads from the supply, latched outputs are

required to avoid oscillation. Latching outputs are also

useful for detecting problems that are intermittent. The

comparator outputs on the LT6109 are always latching

and there is no way to disable this feature.

Each of the comparators has one input available externally,

with the two versions of the part differing by the polarity

of those available inputs. The other comparator inputs are

connected internally to the 400mV precision reference.

The input threshold (the voltage which causes the output

to transition from high to low) is designed to be equal to

that of the reference. The reference voltage is established

with respect to the device V

Comparator Inputs

The comparator inputs can swing from V

of the supply voltage used. The input current for inputs

well above the threshold is just a few pAs. With decreas-

ing input voltage, a small bias current begins to be drawn

out of the input near the threshold, reaching 50nA max

when at ground potential. Note that this change in input

bias current can cause a small nonlinearity in the OUTA

transfer function if the comparator inputs are coupled to

the amplifier output with a voltage divider. For example, if

the maximum comparator input current is 50nA, and the

resistance seen looking out of the comparator input is 1k,

then a change in output voltage of 50µV will be seen on the

analog output when the comparator input voltage passes

through its threshold. If both comparator inputs are con-

nected to the output then they must both be considered.

Setting Comparator Thresholds

The comparators have an internal precision 400mV refer-

ence. In order to set the trip points of the LT6109-1 com-

parators, the output currents, I

as the maximum output current, I

OVER

MAX

SENSE(MAX)

SENSE(OVER)

, I

UNDER

–

connection.

OVER

MAX

, must be calculated:

and I

SENSE(UNDER)

–

to 60V regardless

UNDER

, as well

610912f

LT6109IMS-1#TRPBF Linear Technology, LT6109IMS-1#TRPBF Datasheet - Page 16

LT6109IMS-1#TRPBF

Specifications of LT6109IMS-1#TRPBF

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