HI5805EVAL1 Intersil, HI5805EVAL1 Datasheet - Page 4

HI5805EVAL1

Manufacturer Part Number

HI5805EVAL1

Description

EVALUATION PLATFORM HI5805

Manufacturer

Intersil

Datasheets

1.HI5805BIBZ.pdf (12 pages)

2.HI5805EVAL1.pdf (15 pages)

Specifications of HI5805EVAL1

Number Of Adc's

Number Of Bits

Sampling Rate (per Second)

Data Interface

Parallel

Inputs Per Adc

1 Differential

Input Range

4 Vpp

Power (typ) @ Conditions

300mW @ 5MSPS

Voltage Supply Source

Analog and Digital

Operating Temperature

-40°C ~ 85°C

Utilized Ic / Part

HI5805

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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Reference Generator, V

The HI5805 has an internal reference voltage generator,

therefore no external reference voltage is required. V

must be connected to V

reference. Internal to the converter, two reference voltages

of 1.3V and 3.3V are generated making for a fully differential

analog input signal range of 2V.

The HI5805 can be used with an external reference. The

converter requires only one external reference voltage

connected to the V

evaluation board is configured with V

through a 0 resistor, R

performance of the converter utilizing an externally provided

reference voltage, R

reference voltage can be brought in through twisted pair wire or

coaxial cable. The latter would be the recommended method

since it would provide the greatest immunity to externally

coupled noise voltages. In order to minimize overall converter

noise it is recommended that adequate high frequency

decoupling be provided at the reference input pin, V

Analog Input

The fully differential analog input of the HI5805 A/D can be

conﬁgured in various ways depending on the signal source

and the required level of performance.

Differential Analog Input Conﬁguration

A fully differential connection (Figure 3) will yield the best

performance from the HI5805 A/D converter. Since the

HI5805 is powered off a single +5V supply, the analog input

must be biased so it lies within the analog input common

mode voltage range of 1.0V to 4.0V. Figure 4 illustrates the

differential analog input common mode voltage range that

the converter will accommodate. The performance of the

ADC does not change signiﬁcantly with the value of the

common mode voltage.

A 2.3V DC bias voltage source, VDC, half way between the top

and bottom internally generated reference voltages, is made

available to the user to help simplify circuit design when using a

differential input. This low output impedance voltage source is

not designed to be a reference but makes an excellent bias

source and stays within the analog input common mode

voltage range over temperature. The DC voltage source has a

temperature coefficient of about +200ppm/

-V

FIGURE 3. AC COUPLED DIFFERENTIAL INPUT

RIN

pin with V

can be removed and the alternate

RIN

. If it is desired to evaluate the

when using the internal

3-4

ROUT

left open. The

connected to V

and V

HI5805

Application Note 9707

RIN

ROUT

RIN

The difference between the converter's two internally

generated voltage references is 2V. For the AC coupled

differential input, (Figure 3), if V

will be at positive full scale when the V

and the V

Conversely, the ADC will be at negative full scale when the

- V

Evaluation Board Layout and Power Supplies

The HI5805 evaluation board is a four layer board with a layout

optimized for the best performance of the ADC. This application

note includes an electrical schematic of the evaluation board, a

component parts list, a component placement layout drawing

and reproductions of the various board layers used in the board

stack-up. The user should feel free to copy the layout in their

application. Refer to the component layout and the evaluation

board electrical schematic for the following discussions.

The HI5805 monolithic A/D converter has been designed

with separate analog and digital supply and ground pins to

keep digital noise out of the analog signal path. The

evaluation board provides separate low impedance analog

and digital ground planes on layer 2. Since the analog and

digital ground planes are connected together at a single

point where the power supplies enter the board, DO NOT tie

them together back at the power supplies.

The analog and digital supplies are also kept separate on

the evaluation board and should be driven by clean linear

regulated supplies. The external power supplies can be

hooked up with wires to the plated through holes marked

+5VAIN, +5VAIN1, -5VAIN, +5VDIN, +5VD1IN, +5VD2IN,

-5VDIN, AGND and DGND near the analog prototyping area.

+5VDIN, +5VD1IN, +5VD2IN and -5VDIN are digital

supplies and should be returned to DGND. +5VAIN,

+5VAIN1 and -5VAIN are the analog supplies and should be

returned to AGND. Table 1 lists the operational supply

voltages, typical current consumption and the evaluation

board circuit function being powered. Single supply

operation of the converter is possible but the overall

performance of the converter may degrade.

IN+

IN-

FIGURE 4. DIFFERENTIAL ANALOG INPUT COMMON MODE

+5V

being 180 degrees out of phase with V

input is equal to V

= -2V).

IN-

input is at V

VOLTAGE RANGE

2.0V

P-P

- 1V and V

- 1V (V

is a 2V

VDC = 4.0V

1.0V < VDC < 4.0V

VDC = 1.0V

IN+

IN-

IN+

- V

is at V

P-P

input is at V

IN-

, the converter

sinewave with -

= +2V).

+ 1V (V

+5V

+ 1V

IN+

HI5805EVAL1 Intersil, HI5805EVAL1 Datasheet - Page 4

HI5805EVAL1

Specifications of HI5805EVAL1

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