SPT7830SIS Cadeka Microcircuits, SPT7830SIS Datasheet - Page 5

SPT7830SIS

Manufacturer Part Number

SPT7830SIS

Description

Analog to Digital Converters - ADC A/D CONVERTER 10-BIT 1KHz - 2.5MSPS

Manufacturer

Cadeka Microcircuits

Datasheet

1.SPT7830SIS.pdf (8 pages)

Specifications of SPT7830SIS

Product Category

Analog to Digital Converters - ADC

Rohs

yes

Number Of Channels

Architecture

SAR

Conversion Rate

2.5 MSPs

Resolution

10 bit

Input Type

Single-Ended

Snr

56 dB

Operating Supply Voltage

3 V to 5 V

Maximum Operating Temperature

+ 85 C

Mounting Style

SMD/SMT

Package / Case

SOIC-8

Maximum Power Dissipation

50 mW

Minimum Operating Temperature

- 40 C

Number Of Converters

Voltage Reference

3 V

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Figure 1 - Analog Input Full-Scale Range

The drive requirements for the analog input are minimal

when compared to most other converters due to the

SPT7830’s extremely low input capacitance of only 5 pF and

very high input resistance of greater than 5 M .

If the input buffer amplifier supply voltages are greater than

should be protected through a series resistor and a diode

clamping circuit as shown in figure 2.

Figure 2 - Recommended Input Protection Circuit

INPUT PROTECTION

All I/O pads are protected with an on-chip protection circuit

shown in figure 3. This circuit provides ESD robustness to

>3.0 kV and prevents latch-up under severe discharge

conditions without degrading analog transition times.

Figure 3 - On-Chip Protection Circuit

REF

+ 0.7 V or less than Ground - 0.7 V, the analog input

+FS

-FS

Buffer

Pad

D1 = D2 = Hewlett Packard HP5712 or equivalent

-V

6% of [(V

120

REF

+) - (V

4% of [(V

ADC

REF

Analog

-)]

REF

+) - (V

REF

-)]

MODES OF OPERATION

The SPT7830 has three modes of operation.The mode of

operation is based strictly on how the

SINGLE SHOT MODE

When

of the clock (defined as the first conversion clock). The MSB

of data is valid 8 ns after the falling edge of the fourth

conversion clock. (See figure 8, Data Output Timing.)

The conversion is complete after 14 clock cycles. At the

falling edge of the fourteenth clock cycle, if

selected), the data output goes to a high impedance state,

and no more conversions will take place until the next

event. (See the single shot mode timing diagram in figure 4.)

SYNCHRONIZED MODE

When

edge of the clock (defined as the first conversion clock). The

MSB is valid 8 ns after the falling edge of the fourth conver-

sion clock.

The first conversion is complete after 14 clock cycles. At any

time after the falling edge of the fourteenth clock cycle,

may go low again to initiate the next conversion. When the

next clock. (See the synchronized mode timing diagram in

figure 5.)

The data output will go to a high impedance state until the

next conversion is initiated.

FREE RUN MODE

When

of the clock (defined as the first conversion clock). The MSB

data is valid 8 ns after the falling edge of the fourth conver-

sion clock.

As long as

mode. New conversions start after every fourteenth cycle

with valid data available 8 ns after the falling edge of the

fourth clock within each new conversion cycle.

The data output remains low between conversion cycles.

(See the free run mode timing diagram in figure 6.)

goes low, the conversion starts on the rising edge of the

goes low, conversion starts on the next rising edge

goes low, conversion will start on the next rising

is held low, the device operates in the free run

is used.

is high (not

SPT7830

12/29/99

low

SPT7830SIS Cadeka Microcircuits, SPT7830SIS Datasheet - Page 5

SPT7830SIS

Specifications of SPT7830SIS

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