hi3-7152k-5 Intersil Corporation, hi3-7152k-5 Datasheet - Page 9

hi3-7152k-5

Manufacturer Part Number

hi3-7152k-5

Description

10-bit High Speed Converter With Track Hold

Manufacturer

Intersil Corporation

Datasheet

1.HI3-7152K-5.pdf (16 pages)

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Detailed Description

The HI-7152 is a high speed 10-bit A/D converter which

achieves throughput rates of 200kHz by use of a Two Step

Flash algorithm. A pipelined operation has been achieved

through the use of switched capacitor techniques which

allow the device to sample a new input voltage while a

conversion is taking place. The HI-7152 requires a single

reference input of +2.5V, which is internally inverted to -

2.5V, thereby allowing an input range of -2.5V to +2.5V. 10

bits including sign are two’s complement coded. The analog

and reference inputs are internally buffered by high speed

CMOS buffers, which greatly simplifies the external analog

drive requirements for the device.

A/D Section

The HI-7152 uses a conversion algorithm which is generally

called a “Two Step Flash” algorithm. This algorithm enables

very fast conversion rates without the penalty of high power

dissipation or high cost. A detailed functional diagram is

presented in Figure 2.

The input voltage is first converted into a 5-bit result (plus

Out of Range information) by the flash converter. This flash

converter

comparators which perform a comparison between the input

voltage and subdivisions of the reference voltage. These

subdivisions of the reference voltage are formed by forcing

the reference voltage and its negative on the two ends of a

string of 32 resistors.

The reference input to the HI-7152 is buffered by a high

speed CMOS amplifier which is used to drive one end of the

resistor string. Another high speed amplifier configured in

the inverting unity gain mode inverts the reference voltage

with respect to analog ground and forces in onto the other

end of the resistor string. Both reference amplifiers are offset

trimmed at the factory in order to increase the accuracy of

the HI-7152 and to simplify its usage.

TRACK AND HOLD

SCA AUTO-ZERO

INTERNAL DATA

COMPARATOR

10-BITS + OVR

consists

AUTO-ZERO

CLOCK

(SCAZ)

(AZ)

N CONVERSION

SAMPLE V

array

SAMPLE

HOLD V

(N)

FIGURE 3. INTERNAL ADC TIMING DIAGRAM

(N)

CONVERT

(N)

UPPER

5 BITS

auto-zeroed

HI-7152

6-9

AMPLIFY RESIDUAL

SAMPLE RESIDUAL

The 5-bit result of the first flash conversion is latched into the

upper five bits of double buffered latches. It is also converted

back into an analog signal by choosing the ladder voltage

which is closest to but less than the input voltage. The selected

voltage (V

residue is amplified by a factor of 32 and referenced to the neg-

ative reference voltage (V

This subtraction and amplification operation is performed by a

Switched Capacitor Amplifier (SCA). The output of the SCA

falls between the positive and negative reference voltages and

can therefore be digitized by the original 5-bit flash converter

(second flash conversion).

The 5-bit result of the second flash conversion is latched into

the lower five bits of double buffered latches. At the end of a

conversion, 10 bits of data plus an Out of Range bit are

latched into the second level of latches and can then be put

on the digital output pins.

The conversion takes place in three clock cycles and is

illustrated in Figure 3. When the conversion begins, the track

and hold goes into its hold mode for 1 clock cycle. During the

first half clock cycle the comparator array is in its auto-zero

mode and it samples the input voltage. During the second

half clock cycle, the comparators make a comparison

between the input voltage and the ladder voltages. At the

beginning of the third half clock cycle, the first most

significant 5-bit result becomes available. During the first

clock cycle, the SCA was sampling the input voltage. After

the first flash result becomes available and a ladder tap

voltage has been selected the SCA amplifies the residue

between the input and ladder tap voltages. During the next

three half clock cycles, while the SCA output is settling to its

required accuracy, the comparators go into their auto-zero

mode and sample this voltage. During the sixth half clock

cycle, the comparators perform another comparison whose

5-bit result becomes available on the next clock edge.

TRACK V

TAP

) is then subtracted from the input voltage. This

(N + 1)

CONVERT

SCA

LOWER

5 BITS

SAMPLE V

= (V

N + 1 CONVERSION

HOLD V

SAMPLE

- V

(N + 1)

TAP

(N + 1)

(N) DATA

) X 32 + V

(N + 1)

REF

-).

hi3-7152k-5 Intersil Corporation, hi3-7152k-5 Datasheet - Page 9

hi3-7152k-5

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