Rainbow Electronics MAX996 User Manual

MAX987/MAX988/MAX991/MAX992/MAX995/MAX996

High-Speed, Micropower, Low-Voltage,

SOT23, Rail-to-Rail I/O Comparators

_______________________________________________________________________________________

9

5) Calculate R2 as shown. For this example, choose an

8.2k

Ω standard value:

6) Verify trip voltages and hysteresis as follows:

MAX988/MAX992/MAX996

The MAX988/MAX992/MAX996 have ±2.5mV internal
hysteresis. They have open-drain outputs and require
an external pull-up resistor (Figure 2). Additional hys-
teresis can be generated using positive feedback, but
the formulas differ slightly from those of the
MAX987/MAX991/MAX995.

Use the following procedure to calculate resistor
values:

1) Select R3 according to the formulas R3 = V

REF

/ 1µA

or R3 = (V

REF

- V

CC

) / 1µA - R4. Use the smaller of

the two resulting resistor values.

2) Choose the hysteresis band required (V

HB

). For this

example, choose 50mV.

3) Calculate R1 according to the following equation:

R1 = (R3 + R4) x (V

HB

/ V

CC

)

4) Choose the trip point for V

IN

rising (V

THR

; V

THF

is

the trip point for V

IN

falling). This is the threshold

voltage at which the comparator switches its output
from low to high as V

IN

rises above the trip point.

5) Calculate R2 as follows:

6) Verify trip voltages and hysteresis as follows:

Circuit Layout and Bypassing

These comparators’ high-gain bandwidth requires
design precautions to maximize their high-speed capa-
bility. The recommended precautions are:

1) Use a printed circuit board with an unbroken, low-

inductance ground plane.

2) Place a decoupling capacitor (a 0.1µF ceramic

capacitor is a good choice) as close to V

CC

as

possible.

3) On the inputs and outputs, keep lead lengths short

to avoid unwanted parasitic feedback around the
comparators.

4) Solder the devices directly to the printed circuit

board instead of using a socket.

V rising: V

= V

x R1 x

1

R1

V falling

IN

THR

REF

IN

:

+

+

+







=

−

+







=

−

1

2

1

3

4

1

3

4

R

R

R

V

V

R x V

R

R

Hysteresis

V

V

THF

THR

CC

THR

THF

R2 =

1

V

V

THR

REF

x R

R

R

R

1

1

1

1

3

4







−

−

+

V rising: V

= V

x R1 x

1

R1

V falling

IN

THR

REF

IN

:

+

+







=

−







=

−

1

2

1

3

1

3

R

R

V

V

R x V

R

Hysteresis

V

V

THF

THR

CC

THR

THF

R2 =

1

V

V

R2 =

1

3.0V

1.2 x 12k

THR

REF

.

.

x R

R

R

k

M

k

1

1

1

1

3

1

12

1

2 2

8 03







−

−







−

−

=

Ω

Ω

Ω

Ω

V

EE

V

CC

OUT

R3

R2

R1

R4

0.1

µF

V

REF

V

IN

V

CC

MAX988
MAX992
MAX996

Figure 2. Additional Hysteresis (MAX988/MAX992/MAX996)