LTC1098CS8 Linear Technology, LTC1098CS8 Datasheet - Page 22

LTC1098CS8

Manufacturer Part Number

LTC1098CS8

Description

IC A/D CONV 8BIT SRL IN/OUT8SOIC

Manufacturer

Linear Technology

Datasheet

1.LTC1098CS8PBF.pdf (32 pages)

Specifications of LTC1098CS8

Number Of Bits

Sampling Rate (per Second)

33k

Data Interface

Serial

Number Of Converters

Power Dissipation (max)

780µW

Voltage Supply Source

Single Supply

Operating Temperature

0°C ~ 70°C

Mounting Type

Surface Mount

Package / Case

8-SOIC (0.154", 3.90mm Width)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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LTC1096/LTC1096L

LTC1098/LTC1098L

APPLICATIONS INFORMATION

in and continues until the falling CLK edge after the MSBF

bit is received. On this falling edge, the S&H goes into hold

mode and the conversion begins.

Differential Inputs

With differential inputs, the ADC no longer converts just a

single voltage but rather the difference between two volt-

ages. In this case, the voltage on the selected “+” input

is still sampled and held and therefore may be rapidly

time varying just as in single-ended mode. However, the

voltage on the selected “–” input must remain constant

and be free of noise and ripple throughout the conver-

sion time. Otherwise, the differencing operation may not

be performed accurately. The conversion time is 8 CLK

cycles. Therefore, a change in the “–” input voltage during

this interval can cause conversion errors. For a sinusoidal

voltage on the “–” input this error would be:

Where f(“–”) is the frequency of the “–” input voltage,

the CLK. In most cases V

a 60Hz signal on the “–” input to generate a 1/4LSB error

(5mV) with the converter running at CLK = 500kHz, its

peak value would have to be 750mV.

ANALOG INPUTS

Because of the capacitive redistribution A/D conversion

techniques used, the analog inputs of the LTC1096(L)/

LTC1098(L )have capacitive switching input current spikes.

These current spikes settle quickly and do not cause a

problem. However, if large source resistances are used

or if slow settling op amps drive the inputs, care must be

taken to ensure that the transients caused by the current

spikes settle completely before the conversion begins.

“+” Input Settling

The input capacitor of the LTC1096(L) is switched onto

“+” input during the wake-up time (see Figure 1) and

samples the input signal within that time. However, the

input capacitor of the LTC1098(L) is switched onto “+”

input during the sample phase (t

sample phase is 1.5 CLK cycles before conversion starts.

The voltage on the “+” input must settle completely within

PEAK

ERROR (MAX)

is its peak amplitude and f

= V

PEAK

ERROR

• 2 • π • f(“–”) • 8/f

will not be signiﬁ cant. For

SMPL

CLK

, see Figure 7). The

is the frequency of

CLK

respectively. Minimizing R

input settling time. If a large “+” input source resistance

must be used, the sample time can be increased by using

a slower CLK frequency.

“–” Input Settling

At the end of the t

switches to the “–” input and conversion starts (see

Figures 1 and 7). During the conversion the “+” input

voltage is effectively “held” by the sample-and-hold and

will not affect the conversion result. However, it is criti-

cal that the “–” input voltage settles completely during

the ﬁ rst CLK cycle of the conversion time and be free of

noise. Minimizing R

time. If a large “–” input source resistance must be used,

the time allowed for settling can be extended by using a

slower CLK frequency.

Input Op Amps

When driving the analog inputs with an op amp it is im-

portant that the op amp settle within the allowed time (see

Figure 7). Again, the “+” and “–” input sampling times can

be extended as described above to accommodate slower

op amps. Most op amps, including the LT1006 and LT1413

single supply op amps, can be made to settle well even

with the minimum settling windows of 3μs (“+” input)

which occur at the maximum clock rate of 500kHz.

Source Resistance

The analog inputs of the LTC1096/LTC1098 look like a 25pF

capacitor (C

shown in Figure 8. C

“+” and “–” inputs once during each conversion cycle.

WAKEUP

–

or t

Figure 8. Analog Input Equivalent Circuit

SOURCE

SMPL

) in series with a 500Ω resistor (R

–

for the LTC1096(L) or the LTC1098(L)

WAKEUP

SOURCE

INPUT

gets switched between the selected

“+”

“–”

SOURCE

–

or t

and C2 will improve settling

SMPL

and C1 will improve the

, the input capacitor

= 500Ω

LTC1096

LTC1098

= 25pF

10968 F08

10968fc

) as

LTC1098CS8 Linear Technology, LTC1098CS8 Datasheet - Page 22

LTC1098CS8

Specifications of LTC1098CS8

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