HI5860IB Intersil, HI5860IB Datasheet - Page 9

HI5860IB

Manufacturer Part Number

HI5860IB

Description

CONV D/A 12-BIT 130MSPS 28-SOIC

Manufacturer

Intersil

Datasheet

1.HI5860IBZ-T.pdf (12 pages)

Specifications of HI5860IB

Settling Time

35ns

Number Of Bits

Data Interface

Parallel

Number Of Converters

Voltage Supply Source

Analog and Digital

Power Dissipation (max)

200mW

Operating Temperature

-40°C ~ 85°C

Mounting Type

Surface Mount

Package / Case

28-SOIC (7.5mm Width)

Lead Free Status / RoHS Status

Contains lead / RoHS non-compliant

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corresponding components should be located over the

digital ground plane and terminated to the digital ground

plane. The same is true for the analog components and the

analog ground plane. Consult Application Note 9853.

Noise Reduction

To minimize power supply noise, 0.1µF capacitors should be

placed as close as possible to the converter’s power supply

pins, AV

using separate digital and analog ground planes and these

capacitors should be terminated to the digital ground for

of the power supplies on the board is recommended.

Voltage Reference

The internal voltage reference of the device has a nominal

value of +1.2V with a ±60ppm /

temperature range of the converter. It is recommended that

a 0.1µF capacitor be placed as close as possible to the

REFIO pin, connected to the analog ground. The REFLO pin

(16) selects the reference. The internal reference can be

selected if pin 16 is tied low (ground). If an external

reference is desired, then pin 16 should be tied high (the

analog supply voltage) and the external reference driven into

REFIO, pin 17. The full scale output current of the converter

is a function of the voltage reference used and the value of

though operation below 2mA is possible, with performance

degradation.

If the internal reference is used, V

approximately 1.2V (pin 18). If an external reference is used,

If the full scale output current is set to 20mA by using the

internal voltage reference (1.2V) and a 1.91kΩ R

resistor, then the input coding to output current will resemble

Table 1:

OUT

INPUT CODE (D11-D0)

SET

FSADJ

10 00000 00000

00 00000 00000

(

11 11111 11111

. I

(Full Scale) is shown in Equation 1:

FullScale

and to the analog ground for AV

TABLE 1. INPUT CODING vs OUTPUT CURRENT

OUT

will equal the external reference. The calculation for

and DV

should be within the 2mA to 20mA range,

)

--------------------- -

FSADJ

SET

. Also, the layout should be designed

IOUTA (mA)

°C

drift coefficient over the full

FSADJ

. Additional filtering

will equal

IOUTB (mA)

SET

(EQ. 1)

HI5860

Outputs

IOUTA and IOUTB are complementary current outputs. The

sum of the two currents is always equal to the full scale

output current minus one LSB. If single-ended use is

desired, a load resistor can be used to convert the output

current to a voltage. It is recommended that the unused

output be either grounded or equally terminated. The voltage

developed at the output must not violate the output voltage

compliance range of -0.3V to 1.25V. R

loading each current output) should be chosen so that the

desired output voltage is produced in conjunction with the

output full scale current. If a known line impedance is to be

driven, then the output load resistor should be chosen to

match this impedance. The output voltage is shown in

Equation 2:

These outputs can be used in a differential-to-single-ended

arrangement to achieve better harmonic rejection. The

SFDR measurements in this data sheet were performed with

a 1:1 transformer on the output of the DAC (see Figure 1).

With the center tap grounded, the output swing of pins 21

and 22 will be biased at 0V. The loading as shown in

Figure 1 will result in a 500mV signal at the output of the

transformer if the full scale output current of the DAC is set

to 20mA.

center tap to float will result in identical transformer output,

however the output pins of the DAC will have positive DC

offset. Since the DAC’s output voltage compliance range is

-0.3V to +1.25V, the center tap may need to be left floating or

DC offset in order to increase the amount of signal swing

available. The 50Ω load on the output of the transformer

represents the spectrum analyzer’s input impedance.

LOADING EACH OUTPUT

OUT

HI5860

IS THE IMPEDANCE

PIN 21

PIN 22

= 2 x I

OUT

LOAD

IOUTB

IOUTA

x R

where R

FIGURE 1.

100Ω

50Ω

is ~12.5Ω. Allowing the

LOAD

OUT

50Ω REPRESENTS THE

SPECTRUM ANALYZER

= (2 x I

50Ω

(the impedance

OUT

February 6, 2008

x R

FN4654.7

(EQ. 2)

HI5860IB Intersil, HI5860IB Datasheet - Page 9

HI5860IB

Specifications of HI5860IB

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