HI3-7151A-9 INTERSIL [Intersil Corporation], HI3-7151A-9 Datasheet - Page 11

HI3-7151A-9

Manufacturer Part Number

HI3-7151A-9

Description

10-Bit, High Speed, A/D Converter with Track and Hold

Manufacturer

INTERSIL [Intersil Corporation]

Datasheet

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Track and Hold Analog Input

A Track and Hold amplifier has been fully integrated on the

front end of the A/D converter. Because of the sampling

nature of this A/D converter, the input is required to stay

constant only during the first clock cycle. Therefore, the

Track and Hold (T/H) amplifier “holds” the input voltage only

during the first clock cycle and it acquires the input voltage

for the next conversion during the remaining two clock

cycles. The high input impedance of the T/H input amplifier

simplifies analog interfacing. Input signals up to ±V

be directly connected to the A/D without buffering. The A/D

output code table is shown in Table 1.

The timing signals for the Track and Hold amplifier are

generated internally, and are also provided externally

(HOLD) for synchronization purposes. The T/H amplifier

consists of two high speed CMOS amplifiers and an internal

hold capacitor. Its typical slew rate and bandwidth are 9V/µs

and 1.5MHz respectively. It is configured to give a very small

hold pedestal without the use of an external hold capacitor.

The hold pedestal is typically less than 100µV.

Acquisition of the analog input signal is the time required by

the T/H for its output to reach its final value within a specified

error band. This time is a function of the logic delay time, op

amp slewing time, and settling time. The T/H is in the track

mode for 2 clock cycles (6.7µs at CLK = 300kHz) but the out-

put typically settles to within

Aperture delay time is the time required for the T/H switch to

open following the internal hold command. This is the delay

with respect to falling edge of WR and the internal hold

command. It is equal to Thold (type) - 50ns (typ) which is

typically 30ns.

Aperture uncertainty (jitter) is a range of variation in the

aperture time. The greater the aperture time the larger the

uncertainty in the analog voltage being converted. If the

aperture time is nulled out by advancing the hold command

(WR) or the signal is repetitively sampled, aperture uncer-

tainty becomes the major source of time error. The aperture

uncertainty for the T/H is typically 2ns which sets the maxi-

mum input bandwidth to 77.7kHz for 1 LSB resolution.

≥ +V

≤ -V

LSB = 2 (V

+1 LSB

-1 LSB

-V

where n = resolution in bits,

ta = aperture uncertainty

MAX

REF

= 1/(π X 2

- 1 LSB

REF

) / 1024

ANALOG INPUT

X ta),

2.500V to V+ (+OVR)

2.49512V (+Full Scale)

0.00488V

0.000V

-0.00488V

-2.500V (-Full Scale)

-2.50488V to V- (-OVR)

REF

LSB in 1.5µs.

= 2.500V

TABLE 1. A/D OUTPUT CODE TABLE

OVR

REF

SIGN 9

HI-7151

can

All of the internal amplifiers are offset trimmed at the factory

to give improved accuracy and to minimize the number of

external components. If necessary, offset error can be

adjusted either at an external interface buffer or by using

digital post correction.

Reference Input

The reference input to the HI-7151 is buffered by a high

speed CMOS amplifier. The reference input range is 2.2V to

2.6V.

Power Requirements

Power to the chip should be applied in the following order:

V-, V+, and V

to V-, the positive supply current will be approximately 2

times its nominal value until V- is applied (this is not a

latchup condition).

Initialization

In fast memory and DMA modes (after proper power, V

and clock) up to 6 clock cycles are required for circuit initial-

ization. After circuit initialization, valid data will be available

in 3 clock cycles.

Microprocessor Interface

The HI-7151 can be interfaced to microprocessors through

the use of standard Write, Read, Chip Select, and HBE

control pins. The digital outputs are two’s complement

coded, three-state gated, and byte organized for bus

interface with 8- and 16-bit systems. The digital outputs (D0 -

D9, OVR, and BUSY) may be accessed under control of

BUS, byte enable input HBE, chip select, and read inputs for

a simple parallel bus interface. The microprocessor can read

the current data in the output latches in typically 75ns/byte

(trd). An over range pin (OVR) together with the MSB (D9)

pin set to either a logic 0 or 1 will indicate a positive or

negative over-range condition respectively. All digital output

buffers are capable of driving one TTL load.

The HI-7151 can be interfaced to a microprocessor using

one of three modes: slow memory, fast memory, and DMA

mode.

MSB 8

REF

OUTPUT DATA

. In applications where V+ is supplied prior

LSB 0

REF

HI3-7151A-9 INTERSIL [Intersil Corporation], HI3-7151A-9 Datasheet - Page 11

HI3-7151A-9

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