REF198FSZ Analog Devices Inc, REF198FSZ Datasheet - Page 24

REF198FSZ

Manufacturer Part Number

REF198FSZ

Description

IC MCRPWR LDO V-REF 4.096V 8SOIC

Manufacturer

Analog Devices Inc

Series

REF19r

Datasheet

1.REF195GPZ.pdf (28 pages)

Specifications of REF198FSZ

Temperature Coefficient

10ppm/°C

Reference Type

Series

Voltage - Output

4.096V

Tolerance

±5mV

Voltage - Input

3 ~ 15 V

Number Of Channels

Current - Quiescent

45µA

Current - Output

30mA

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

8-SOIC (3.9mm Width)

Topology

Series

Input Voltage

4.5V To 15V

Reference Voltage

4.096V

Reference Voltage Tolerance

2mV

Voltage Reference Case Style

SOIC

No. Of Pins

Fixed / Adjust / Prog

Precision

Output Voltage (max)

4.096V

Reference Voltage Accuracy (max)

Line Regulation

8ppm/V

Load Regulation

8ppm/mA

Input Voltage (max)

18V

Operating Temp Range

-40C to 85C

Operating Temperature Classification

Industrial

Mounting

Surface Mount

Pin Count

Package Type

SOIC N

Lead Free Status / RoHS Status

Lead free / RoHS Compliant

Current - Cathode

Lead Free Status / Rohs Status

Compliant

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Quantity

Price

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REF19x Series

Using dissimilar REF19x series devices with this configuration

allows logic selection between the U1/U2-specified terminal

voltages. For example, with U1 (a REF195) and U2 (a REF196),

as noted in the table in Figure 30, changing the CMOS-compatible

output of 5.0 V and 3.3 V, and vice versa. Other REF19x family

units can also be used for U1/U2, with similar operation in a

logic sense, but with outputs as per the individual paired devices

(see the table in Figure 30). Of course, the exact output voltage

tolerance, drift, and overall quality of the reference voltage is

consistent with the grade of individual U1 and U2 devices.

Due to the nature of the wire-OR, one application caveat should

be understood about this circuit. Because U1 and U2 can only

source current effectively, negative going output voltage changes,

which require the sinking of current, necessarily take longer than

positive going changes. In practice, this means that the circuit is

quite fast when undergoing a transition from 3.3 V to 5 V, but the

transition from 5 V to 3.3 V takes longer. Exactly how much

longer is a function of the load resistance, R

the typical 1 μF value of C2. In general, a conservative transition

time is approximately several milliseconds for load resistances

in the range of 100 Ω to 1 kΩ. Note that for highest accuracy at

the new output voltage, several time constants should be allowed

(for example, >7.6 time constants for <1/2 LSB error @ 10 bits).

KELVIN CONNECTIONS

In many portable applications where the PCB cost and area go

hand-in-hand, circuit interconnects are very often narrow. These

narrow lines can cause large voltage drops if the voltage reference is

required to provide load currents to various functions. The inter-

connections of a circuit can exhibit a typical line resistance of

0.45 mΩ/square (for example, 1 oz. Cu).

In applications where these devices are configured as low dropout

voltage regulators, these wiring voltage drops can become a large

source of error. To circumvent this problem, force and sense

connections can be made to the reference through the use of an

operational amplifier, as shown in Figure 31. This method provides

a means by which the effects of wiring resistance voltage drops can

be eliminated. Load currents flowing through wiring resistance

produce an I-R error (I

Kelvin connection overcomes the problem by including the

wiring resistance within the forcing loop of the op amp. Because

the op amp senses the load voltage, op amp loop control forces

the output to compensate for the wiring error and to produce

the correct voltage at the load. Depending on the reference

device chosen, operational amplifiers that can be used in this

application are the OP295, OP292, and OP183.

logic control voltage from high to low selects between a nominal

LOAD

× R

WIRE

) at the load. However, the

, seen at the output and

Rev. K | Page 24 of 28

FAIL-SAFE 5 V REFERENCE

Some critical applications require a reference voltage to be

maintained at a constant voltage, even with a loss of primary

power. The low standby power of the REF19x series and the

switched output capability allow a fail-safe reference con-

figuration to be implemented rather easily. This reference

maintains a tight output voltage tolerance for either a primary

power source (ac line derived) or a standby (battery derived)

power source, automatically switching between the two as the

power conditions change.

The circuit in Figure 32 illustrates this concept, which borrows

from the switched output idea of Figure 30, again using the

REF19x device family output wire-OR capability. In this case,

because a constant 5 V reference voltage is desired for all condi-

tions, two REF195 devices are used for U1 and U2, with their

on/off switching controlled by the presence or absence of the

primary dc supply source, V

source that supplies power to the load only when V

normal (V

(maximum) standby current drain of U1 in its off state.

In operation, it is assumed that for all conditions, either U1 or

U2 is on, and a 5 V reference output is available. With this

voltage constant, a scaled down version is applied to the

Comparator IC U3, providing a fixed 0.5 V input to the negative

input for all power conditions. The R1 to R2 divider provides a

signal to the U3 positive input proportionally to V

switches U3 and U1/U2, dependent upon the absolute level of

with hysteresis, which provides clean, noise-free output

switching. This hysteresis is important to eliminate rapid

switching at the threshold due to V

device chosen is the AD820, a rail-to-rail output device. This

device provides high and low output states within a few mV of

for all V

hysteresis, changing the threshold at the positive input as a

function of the output of U3.

. In Figure 32, Op Amp U3 is configured as a comparator

, ground for accurate thresholds, and compatible drive for U2

SLEEP

Figure 31. Low Dropout, Kelvin-Connected Voltage Reference

conditions. R3 provides positive feedback for circuit

present) power conditions, V

REF19x

GND

OUTPUT

. V

1µF

BAT

100kΩ

is a 6 V battery backup

ripple. Furthermore, the

A1 = 1/2 OP295

BAT

1/2 OP292

OP183

sees only the 15 μA

, which

fails. For

FORCE

SENSE

OUT

REF198FSZ Analog Devices Inc, REF198FSZ Datasheet - Page 24

REF198FSZ

Specifications of REF198FSZ

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