ADC-207LM-QL Просмотр технического описания (PDF) - DATEL Data Acquisition products

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ADC-207LM-QL

7-Bit, 20MHz, CMOS Flash A/D Converters

DATEL Data Acquisition products  

®

®

ADC-207

OUTPUT CODING

(+REFERENCE = +5.12V, –REFERENCE = ground, MIDPOINT = no connection)

NOTE: The reference should be held to ±0.1% accuracy or

better. Do not use the +5V power supply as a

reference input without precision regulation and high

frequency decoupling.

CLOCK

Values shown here are for a +5.12V reference. Scale other

references proportionally. Calibration equipment should test for

code changes at the midpoints between these center values

OUTPUT

DATA

shown in Table 1. For example, at the half-scale major carry,

set the input to 2.54V and adjust the reference until the code

flickers equally between 63 and 64. Note also that the

weighting for the comparator resistor network leaves the first

and last thresholds within 1/2LSB of the end points to adjust

the code transition to the proper midpoint values.

TIMING DIAGRAM

∅1

AUTO

ZERO

∅2

SAMPLE

N

∅1

AUTO

ZERO

∅2

SAMPLE

N+1

∅1

AUTO

ZERO

∅2

SAMPLE

N+2

25ns max.

N DATA

N+1 DATA

25ns max.

Table 1. ADC-207 Output Coding

Analog Input

(Center Value)

0.00V

+0.04V

+1.28V

+2.52V

+2.56V

+2.60V

+3.84V

+5.08V

+5.12V

Code

Zero

+1LSB

+1/4FS

+1/2FS – 1LSB

+1/2FS

+1/2FS + 1LSB

+3/4FS

+FS

Overflow

Overflow

0

0

0

0

0

0

0

0

1

1234567

MSB

LSB

0000000

0000001

0100000

0111111

1000000

1000001

1100000

1111111

1111111

*Note that the overflow code does not clear the data bits.

Decimal

0

1

32

63

64

65

96

127

255*

Hexadecimal

(Incl. 0V)

00

01

20

3F

40

41

60

7F

FF

ADC-207 OPERATION

The ADC-207 uses a switched capacitor scheme in which

there is an auto-zero phase and a sampling phase. See

Figure 1 and Timing Diagram. The ADC-207 uses a single

clock input. When the clock is at a high state (logic 1), the

ADC-207 is in the auto-zero phase (Ø1). When the clock is at

a low state (logic 0), the ADC-207 is in the sampling phase

(Ø2). During phase 1, the 128 comparator outputs are shorted

to their inputs through CMOS switches. This serves the

purpose of bringing the inputs and outputs to the transition

levels of the respective comparators. The inputs to the

comparators are also connected to 128 sampling capacitors.

The other end of the 128 capacitors are also shorted to 128

taps of a resistor ladder, via CMOS switches. Therefore, during

phase 1 the sampling capacitors are charged to the differential

voltage between a resistor tap and its respective comparator

transition voltage.

This eliminates offset differences between comparators and

yields better temperature performance. During phase 2 (Ø2) the

input voltage is applied to the 128 capacitors, via CMOS

switches. This forces the comparators to trip either high or low.

Since the comparators during phase 1 were sitting at their

transition point, they can trip very quickly to the correct state.

Also during phase 2, the outputs of the comparators are loaded

into internal latches which in turn feed a128-to-7 encoder. When

going back into phase 1, the output of the encoder is loaded into

an output latch. This latch then feeds the 3-state output buffer.

This means that the ADC-207 is of pipeline design. To do a

single conversion, the ADC-207 requires a positive pulse

followed by a negative pulse followed by a positive pulse.

Continuous conversion requires one cycle/sample (one positive

pulse and one negative pulse). The 3-state buffer has two

enable lines, CS1 and CS2. Table 2 shows the truth table for

chip select signals. CS1 has the function of enabling/disabling

bits 1 through 7. CS2 has the function of enabling/disabling

bits 1 through 7 and the overflow bit. Also, a full-scale input

produces all ones, including the overflow bit at the output. The

ADC-207 has an adjustable resistor ladder string. The top end,

idle point, and bottom end are brought out for use with

applications circuits.

These pins are called +REFERENCE, MIDPOINT and

–REFERENCE, respectively. In typical operation

+REFERENCE is tied to +5V, –REFERENCE is tied to ground,

and MIDPOINT is bypassed to ground. Such a configuration

results in a 0 to +5V input voltage range. The MIDPOINT pin

can also be tied to a +2.5V source to further improve integral

linearity. This is usually not necessary unless better than 7-bit

linearity is needed.

Table 2. Chip Select Truth Table

CS1 CS2

Bits 1-7

Overflow Bit

0

0

1

0

0

1

1

1

3-State Mode

3-State Mode

Data Outputed

3-State Mode

3-State Mode

3-State Mode

Data Outputed

Data Outputed

NOTE: Reduce the sample time (sample pulse)

3

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