Rainbow Electronics MAX132 User Manual

MAX132

±18-Bit ADC with Serial Interface

_______________________________________________________________________________________

9

Note:

Capacitor values are for a 3.0V integrator swing.

Manufactures of miniature quartz resonators include:

Epson of America
C-2 (through-hole), MC-306 (SMD)
Phone: (310) 787-6300; Fax: (310) 782-5320

Integrator Resistor

The integrator resistor sets the maximum integrator out-
put current for the integrate phase. A 602k

Ω

low-noise,

metal-film integrator resistor is recommended for use
with reference voltages between 545mV and 655mV.
Best linearity is achieved when the integration current
(I

INT

) does not exceed 2.5µA. For other reference volt-

ages, select R

INT

as follows:

Integrator Capacitor

The oscillator frequency, integrator resistor, and inte-
grator capacitor set the maximum integrator output volt-
age swing for full-scale reading. The integrator voltage
swing is about 3V and should not come within 2V of
either supply rail to avoid saturation. A 602k

Ω

integrator

resistor and a 4.7nF integrator capacitor are recom-
mended with a clock frequency of 32,768Hz. If different
clock frequencies are used, select C

INT

using the fol-

lowing equations:

The integrator capacitor’s dielectric absorption directly
affects integral nonlinearity. High-quality metal-film
capacitors are recommended in the following order of
preference: polypropylene, polystyrene, polycarbon-
ate, and polyester (Mylar). The polyester capacitor will
generate some integral nonlinearity.

To minimize noise, INT OUT should drive the outside
foil (negative end) of the capacitor. Manufacturers of
polypropylene capacitors include Sprague (715P),
Panasonic (ECQ-P), Roderstein (KP1835), Wima (FKP),
and CSF Thompson (PL/PS).

Reference Capacitor

The reference capacitor must be small enough to fully
charge from a discharged state on power-up in reason-
able time, and large enough so the charge does not
droop excessively during a conversion. The reference
capacitor is normally 0.1µF for all oscillator frequencies.
For applications that require a physically smaller capaci-
tor, the equation below will maintain C

REF

proportionality:

The reference capacitor must have low leakage, since
it stores the reference voltage while floating during the
deintegrate phase. Any leakage or charge loss during
this phase changes the scale factor and will cause an
error. Appropriate metal-film capacitors recommended
for their low-leakage characteristics

1

are (in this order):

polypropylene (up to +105°C, large size), teflon (suit-
able for use up to +125°C, large size), polystyrene,
polycarbonate, and polyester.

At temperatures above +85°C, capacitor leakage may
affect accuracy. In such cases, increasing the value of
C

REF

up to 50% and more will help at the expense of

longer start-up time at power-on. The start-up time is
proportional to C

REF

and can be estimated by:

Table 1. Crystal Frequencies and
Integrator Capacitors for 50Hz to 60Hz
Operation

Conv/sec

16

32

48

64

80

96

Crystal

Freq.

(Hz)

32,768

65,536

98, 304

131,072

163,840

196,608

C

INT

/60Hz

(pF)

4700

2700

1800

C

INT

/50Hz

(pF)

6800

3300

2000

1200

1000

820

1500

1200

1000

Resistor

(k

Ω

)

602

602

602

602

602

602

R

V

A

I

A

and

I

V

R

INT

REF

INT

INT

REF

INT

.

.

=

<

<

=

2 5

0 5

µ

µ

t

f

for

Hz

e

or

t

f

for

Hz

e

INT

OSC

INT

OSC

,

mod

,

mod

=

=

545

60

655

50

C

f

REF

OSC

.

=

0 0033

t

C

F x

x

k

START UP

REF

−

=

(

)

µ

10

100

Ω

1

Pease, R.A., “Understanding Capacitor Soakage to Optimize

Analog Systems,”

EDN, October 13, 1982, p.125.

C

V

t

R

V

where V

V

V

and

INT

IN FS

INT

INT

SWING

SWING

(

) (

)

(

) (

)

,

.

;

(

)

=

<

<

1

3 5