ADC12H030/ADC12H032/ADC12H034/ADC12H038,
ADC12030/ADC12032/ADC12034/ADC12038
Self-Calibrating 12-Bit Plus Sign Serial I/O A/D
Converters with MUX and Sample/Hold

General Description

The ADC12030, and ADC12H030 families are 12-bit plus
sign successive approximation A/D converters with serial I/O
and

configurable

input

multiplexers.

The ADC12032/

ADC12H032,

ADC12034/ADC12H034

and

ADC12038/

ADC12H038 have 2, 4 and 8 channel multiplexers, respec-
tively. The differential multiplexer outputs and A/D inputs are
available on the MUXOUT1, MUXOUT2, A/DIN1 and A/DIN2
pins. The ADC12030/ADC12H030 has a two channel multi-
plexer with the multiplexer outputs and A/D inputs internally
connected. The ADC12030 family is tested with a 5 MHz
clock, while the ADC12H030 family is tested with an 8 MHz
clock. On request, these A/Ds go through a self calibration
process that adjusts linearity, zero and full-scale errors to
less than

1 LSB each.

The analog inputs can be configured to operate in various
combinations

single-ended,

differential,

pseudo-differential modes. A fully differential unipolar analog
input range (0V to +5V) can be accommodated with a single
+5V supply. In the differential modes, valid outputs are ob-
tained even when the negative inputs are greater than the
positive because of the 12-bit plus sign output data format.

The serial I/O is configured to comply with the NSC MI-
CROWIRE. For voltage references see the LM4040 or
LM4041.

Applications

Medical instruments

Process control systems

Test equipment

Features

Serial I/O (MICROWIRE Compatible)

2, 4, or 8 channel differential or single-ended multiplexer

Analog input sample/hold function

Power down mode

Variable resolution and conversion rate

Programmable acquisition time

Variable digital output word length and format

No zero or full scale adjustment required

Fully tested and guaranteed with a 4.096V reference

0V to 5V analog input range with single 5V power
supply

No Missing Codes over temperature

Key Specifications

Resolution

12-bit plus sign

12-bit plus sign conversion time

ADC12H30 family

5.5 µs (max)

ADC12030 family

8.8 µs (max)

12-bit plus sign throughput time

ADC12H30 family

8.6 µs (max)

ADC12030 family

14 µs (max)

Integral linearity error

1 LSB (max)

single supply

10%

Power consumption

33 mW (max)

Power down

100 µW (typ)

June 2002

ADC12H030/ADC12H032/ADC12H034/ADC12H038,

ADC12030/ADC12032/ADC12034/ADC12038

Self-Calibrating

12-Bit

Plus

Sign

Serial

I/O

A/D

Converters

with

MUX

and

Sample/Hold

DS011354

www.national.com

Connection Diagrams

(Continued)

24-Pin Wide Body

SO, SSOP-EIAJ Packages

28-Pin Wide Body

SO Packages

01135408

Top View

01135409

Top View

Ordering Information

Industrial Temperature Range

Package

-40°C

+85°C

ADC12H030CIWM, ADC12030CIWM

M16B

ADC12H032CIWM, ADC12032CIWM

M20B

ADC12H034CIN, ADC12034CIN

N24C

ADC12H034CIWM, ADC12034CIWM

M24B

ADC12H034CIMSA

MSA24

ADC12H038CIWM, ADC12038CIWM

M28B

Pin Descriptions

CCLK

The clock applied to this input controls the
sucessive approximation conversion time in-
terval and the acquisition time. The rise and
fall times of the clock edges should not ex-
ceed 1 µs.

SCLK

This is the serial data clock input. The clock
applied to this input controls the rate at
which the serial data exchange occurs. The
rising edge loads the information on the DI
pin into the multiplexer address and mode
select shift register. This address controls
which channel of the analog input multi-
plexer (MUX) is selected and the mode of
operation for the A/D. With CS low the falling
edge of SCLK shifts the data resulting from
the previous ADC conversion out on DO,
with the exception of the first bit of data.
When CS is low continously, the first bit of
the data is clocked out on the rising edge of
EOC (end of conversion). When CS is
toggled the falling edge of CS always clocks
out the first bit of data. CS should be brought
low when SCLK is low. The rise and fall
times of the clock edges should not exceed

1 µs.

This is the serial data input pin. The data
applied to this pin is shifted by the rising
edge of SCLK into the multiplexer address
and mode select register. Table 2 through
Table 5 show the assignment of the multi-
plexer address and the mode select data.

The data output pin. This pin is an active
push/pull output when CS is low. When CS
is high, this output is TRI-STATE. The A/D
conversion result (D0D12) and converter
status data are clocked out by the falling
edge of SCLK on this pin. The word length
and format of this result can vary (see Table
1). The word length and format are con-
trolled by the data shifted into the multiplexer
address and mode select register (see Table
5).

EOC

This pin is an active push/pull output and
indicates the status of the ADC12030/2/4/8.
When low, it signals that the A/D is busy with
a conversion, auto-calibration, auto-zero or
power down cycle. The rising edge of EOC
signals the end of one of these cycles.

This is the chip select pin. When a logic low

ADC12H030/ADC12H032/ADC12H034/ADC12H038,

ADC12030/ADC12032/ADC12034/ADC12038

www.national.com

Pin Descriptions

(Continued)

is applied to this pin, the rising edge of SCLK
shifts the data on DI into the address regis-
ter.

This

low

also

brings

out

TRI-STATE. With CS low the falling edge of
SCLK shifts the data resulting from the pre-
vious ADC conversion out on DO, with the
exception of the first bit of data. When CS is
low continously, the first bit of the data is
clocked out on the rising edge of EOC (end
of conversion). When CS is toggled the fall-
ing edge of CS always clocks out the first bit
of data. CS should be brought low when
SCLK is low. The falling edge of CS resets a
conversion in progress and starts the se-
quence for a new conversion. When CS is
brought back low during a conversion, that
conversion is prematurely terminated. The
data in the output latches may be corrupted.
Therefore, when CS is brought back low dur-
ing a conversion in progress the data output
at that time should be ignored. CS may also
be left continuously low. In this case it is
imperative that the correct number of SCLK
pulses be applied to the ADC in order to
remain synchronous. After the ADC supply
power is applied it expects to see 13 clock
pulses for each I/O sequence. The number
of clock pulses the ADC expects is the same
as the digital output word length. This word
length can be modified by the data shifted in
on the DO pin. Table 5 details the data
required.

DOR

This is the data output ready pin. This pin is
an active push/pull output. It is low when the
conversion result is being shifted out and
goes high to signal that all the data has been
shifted out.

CONV

A logic low is required on this pin to program
any mode or change the ADC's configuration
as listed in the Mode Programming Table 5
such as 12-bit conversion, 8-bit conversion,
Auto Cal, Auto Zero etc. When this pin is
high the ADC is placed in the read data only
mode. While in the read data only mode,
bringing CS low and pulsing SCLK will only
clock out on DO any data stored in the ADCs
output shift register. The data on DI will be
neglected. A new conversion will not be
started and the ADC will remain in the mode
and/or

configuration

previously

pro-

grammed. Read data only cannot be per-

formed while a conversion, Auto-Cal or
Auto-Zero are in progress.

This is the power down pin. When PD is high
the A/D is powered down; when PD is low
the A/D is powered up. The A/D takes a
maximum of 250 µs to power up after the
command is given.

CH0CH7

These are the analog inputs of the MUX. A
channel input is selected by the address in-
formation at the DI pin, which is loaded on
the rising edge of SCLK into the address
register (See Tables 2, 3, 4).

The voltage applied to these inputs should
not exceed V

+ or go below GND. Exceed-

ing this range on an unselected channel will
corrupt the reading of a selected channel.

COM

This pin is another analog input pin. It is
used as a pseudo ground when the analog
multiplexer is single-ended.

MUXOUT1,

MUXOUT2
These

are

the

multiplexer

output

pins.

A/DIN1, /DIN2 These are the converter input pins. MUX-

OUT1 is usually tied to A/DIN1. MUXOUT2
is usually tied to A/DIN2. If external circuitry
is placed between MUXOUT1 and A/DIN1,
or MUXOUT2 and A/DIN2 it may be neces-
sary to protect these pins. The voltage at
these pins should not exceed V

or go be-

low AGND (see Figure 5).

REF

This is the positive analog voltage reference
input. In order to maintain accuracy, the volt-
age range of V

REF

= V

REF

+ - V

REF

is 1 V

to 5.0 V

and the voltage at V

REF

cannot exceed V

+. See Figure 6 for recom-

mended bypassing.

REF

The negative voltage reference input. In or-
der to maintain accuracy, the voltage at this
pin must not go below GND or exceed V

(See Figure 6).

+, V

These are the analog and digital power sup-
ply pins. V

and V

are not connected

together on the chip. These pins should be
tied to the same power supply and bypassed
separately (see Figure 6). The operating
voltage range of V

+ and V

+ is 4.5 V

5.5 V

DGND

This is the digital ground pin (see Figure 6).

AGND

This is the analog ground pin (see Figure 6).

ADC12H030/ADC12H032/ADC12H034/ADC12H038,

ADC12030/ADC12032/ADC12034/ADC12038

www.national.com

Absolute Maximum Ratings

(Notes 1,

If Military/Aerospace specified devices are required,
please contact the National Semiconductor Sales Office/
Distributors for availability and specifications.

Positive Supply Voltage

= V

+ = V

6.5V

Voltage at Inputs and Outputs

except CH0CH7 and COM

-0.3V to V

+0.3V

Voltage at Analog Inputs

CH0CH7 and COM

GND -5V to V

+5V

+ - V

300 mV

Input Current at Any Pin (Note 3)

30 mA

Package Input Current (Note 3)

120 mA

Package Dissipation at

= 25°C (Note 4)

500 mW

ESD Susceptability (Note 5)

Human Body Model

1500V

Soldering Information

N Packages (10 seconds)

260°C

SO Package (Note 6):

Vapor Phase (60 seconds)

215°C

Infrared (15 seconds)

220°C

Storage Temperature

-65°C to +150°C

Operating Ratings

(Notes 1, 2)

Operating Temperature Range

MIN

MAX

ADC12030CIWM,

ADC12H030CIWM,

ADC12032CIWM,

ADC12H032CIWM,

ADC12034CIN, ADC12034CIWM,

ADC12H034CIN,

ADC12H034CIWM,

ADC12H034CIMSA,

ADC12038CIWM,

ADC12H038CIWM

-40°C

+85°C

Supply Voltage (V

= V

+ = V

+4.5V to +5.5V

+ - V

100 mV

REF

0V to V

REF

0V to V

REF

+ - V

REF

1V to V

REF

Common Mode Voltage Range

0.1 V

+ to 0.6 V

A/DIN1, A/DIN2, MUXOUT1

and MUXOUT2 Voltage Range

0V to V

A/D IN Common Mode

Voltage Range

0V to V

Converter Electrical Characteristics

The following specifications apply for V

= V

+ = V

+ = +5.0 V

, V

REF

+ = +4.096 V

, V

REF

- = 0 V

, 12-bit + sign conver-

sion mode, f

= f

= 8 MHz for the ADC12H030, ADC12H032, ADC12H034 and ADC12H038, f

= f

= 5 MHz for the

ADC12030, ADC12032, ADC12034 and ADC12038, R

= 25

, source impedance for V

REF

+ and V

REF

25, fully-differential

input with fixed 2.048V common-mode voltage, and 10(t

) acquisition time unless otherwise specified. Boldface limits apply

for T

= T

MIN

to T

MAX

; all other limits T

= T

= 25°C. (Notes 7, 8, 9)

Symbol

Parameter

Conditions

Typical

(Note 10)

Limits

(Note 11)

Units

(Limits)

STATIC CONVERTER CHARACTERISTICS

Resolution with No

Missing Codes

12 + sign

Bits (min)

+ILE

Positive Integral Linearity Error

After Auto-Cal (Notes 12, 18)

1/2

LSB (max)

-ILE

Negative Integral Linearity Error

After Auto-Cal (Notes 12, 18)

1/2

LSB (max)

DNL

Differential Non-Linearity

After Auto-Cal

LSB (max)

Positive Full-Scale Error

After Auto-Cal (Notes 12, 18)

1/2

3.0

LSB (max)

Negative Full-Scale Error

After Auto-Cal (Notes 12, 18)

1/2

3.0

LSB (max)

Offset Error

After Auto-Cal (Notes 5, 18)

1/2

LSB (max)

(+) = V

(-) = 2.048V

DC Common Mode Error

After Auto-Cal (Note 15)

3.5

LSB (max)

TUE

Total Unadjusted Error

After Auto-Cal

LSB

(Notes 12, 13, 14)

Resolution with No

Missing Codes

8-bit + sign mode

8 + sign

Bits (min)

ADC12H030/ADC12H032/ADC12H034/ADC12H038,

ADC12030/ADC12032/ADC12034/ADC12038

Document Outline

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Document Outline

ÐÐ»ÐµÐºÑ‚Ñ€Ð¾Ð½Ð½Ñ‹Ð¹ ÐºÐ¾Ð¼Ð¿Ð¾Ð½ÐµÐ½Ñ‚: ADC12H032CIN