MAX191ACWG+ Datasheet MAX191ACNG+, MAX191BENG+, MAX191BEWG+ | P4-P6

MAX191

Low-Power, 12-Bit Sampling ADC

with Internal Reference and Power-Down

4 _______________________________________________________________________________________

ELECTRICAL CHARACTERISTICS (continued)

= 5V ±5%, V

= 0V or -5V ±5%, f

CLK

= 1.6MHz, 50% duty cycle, AIN- = AGND, BIP = 0V, slow-memory mode, internal-reference

mode, reference compensation mode—external, synchronous operation, Figure 6, T

= T

MIN

to T

MAX

, unless otherwise noted.) (Note 1)

PARAMETER

RD Pulse Width

CONDITIONS

150

UNITS

MAX191C/E

MIN TYP MAX

150 ns

140

MAX191M

MIN TYP MAX

150

160

= 100pF 120 ns

80 100 ns120t

110 120100 nst

100 12080 nst

0 0

CS to RD Hold Time

0 nst

SYMBOL

RD to BUSY Delay

CS to RD Setup Time

0 ns

= 50pF 120 ns

TIMING CHARACTERISTICS (Figures 6–10)

=5V ±5%, V

= 0V or -5V ±5%, T

= T

MIN

to T

MAX

, unless otherwise noted.) (Note 14)

Aperture Delay

Jitter < 50ps 25 nst

2 22

200 200200 nst

HBEN to RD Hold Time

0 0 ns0t

Data Access Time (Note 15)

Data Setup Time After

BUSY (Note 15)

Bus-Relinquish Time (Note 16)

HBEN to RD Setup Time

Delay Between Read

Operations (Note 6)

200 230 ns260t

CLK to BUSY Delay (Note 6)

100 130 ns150t

SCLK

OUT

to SSTRB

Rise Delay

SCLK

OUT

to SSTRB

Fall Delay

100 130 ns150t

= +25°C

MIN TYP MAX

µst

Delay Between Conversions

V-5.25 0Negative Supply Voltage

OUT

µA20 50

V0.4I

OUT

= 1.6mA

mA3 5

V4.75 5.25Positive Supply Voltage

Output Low Voltage

SYMBOL

PD = low

PD = high/float

PD = low

LSB±1/2FS change, V

= -5V ±5%Negative Supply Rejection (Note 13)

LSB±1/2FS change, V

= 5V ±5%Positive Supply Rejection (Note 13)

µA

4.0I

OUT

= -200µAOutput High Voltage

1 20

CS = RD = V

AIN = 5V, D0/D8–D7/

DOUT = 0V or V

HBEN = PAR = BIP

= 0V or V

Positive Supply Current

PD = high/float

Three-State Output

Capacitance (Note 6)

20 100

µA

Negative Supply Current

UNITS

±10D0/D8-D7/DOUT

MIN TYP MAXCONDITIONS

Three-State Leakage Current

PARAMETER

LOGIC OUTPUTS

POWER REQUIREMENTS

MAX191

Low-Power, 12-Bit Sampling ADC

with Internal Reference and Power-Down

_______________________________________________________________________________________ 5

PARAMETER

SCLK to SCLK

OUT

Delay

CONDITIONS

160

UNITS

CS to DOUT Three-State

100 ns

SYMBOL

CS or RD Setup Time

CS or RD Hold Time

150 ns

TIMING CHARACTERISTICS (Figures 6–10) (continued)

=5V ±5%, V

= 0V or -5V ±5%, T

= T

MIN

to T

MAX

, unless otherwise noted.) (Note 14)

MAX191C/E

MIN TYP MAX

180

110

150

MAX191M

MIN TYP MAX

200

120

150

310 350SCLK to SSTRB Delay 260 nst

260 280SCLK to DOUT Delay 240 nst

130SCLK

OUT

to DOUT Delay 100 nst

150

Note 1: Performance at power-supply tolerance limits guaranteed by power-supply rejection test.

Note 2: V

= 5V, V

= 0V, FS = VREF.

Note 3: FS = VREF, offset nulled, ideal last-code transition = FS - 3/2 LSB.

Note 4: Gain-Error Tempco = ∆GE is the gain-error change from T

= +25°C to T

MIN

or T

MAX

Note 5: Conversion time defined as the number of clock cycles times the clock period; clock has a 50% duty cycle.

Note 6: Guaranteed by design, not production tested.

Note 7: AIN+, AIN- must not exceed supplies for specified accuracy.

Note 8: VREF TC = ∆T, where ∆VREF is reference-voltage change from T

= +25°C to T

MIN

or T

MAX

Note 9: Output current should not change during conversion. This current is in addition to the current required by the internal DAC.

Note 10: REFADJ adjustment range is defined as the allowed voltage excursion on REFADJ relative to its unadjusted value of 2.4V.

This will typically result in a 1.7 times larger change in the REF output (Figure 19a).

Note 11: This current is included in the PD supply current specification.

Note 12: Floating the PD pin guarantees external compensation mode.

Note 13: V

REF

= 4.096V, external reference.

Note 14: All input control signals are specified with t

= t

= 5ns (10% to 90% of 5V) and timed from a voltage level of 1.6V.

Note 15: t

and t

are measured with the load circuits of Figure 1 and defined as the time required for an output to cross 0.8V or 2.4V.

Note 16: t

is defined as the time required for the data lines to change 0.5V when loaded with the circuits of Figure 2.

= +25°C

MIN TYP MAX

MAX191

Low-Power, 12-Bit Sampling ADC

with Internal Reference and Power-Down

6 _______________________________________________________________________________________

__________________________________________Typical Operating Characteristics

0.01

0.1 10

CLOCK FREQUENCY

vs. TIMING CAPACITOR

0.1

TIMING CAPACITOR (nF)

CLOCK FREQUENCY (MHz)

SEE FIGURE 5

= +25˚C

GR191-A

-60 150

TEMPERATURE (°C)

SUPPLY CURRENT (µA)

120

0 60

-30 30 90

= +5V

= -5V

PD = 0V

POWER-DOWN SUPPLY CURRENT

vs. TEMPERATURE

GR191-B

-60 150

TEMPERATURE (°C)

(µA)

120

0 60

-30 30 90

NEGATIVE SUPPLY CURRENT

vs. TEMPERATURE

GR191-C

3.5

0.5

-60 -30 30 60

1.0

2.0

TEMPERATURE (°C)

(mA)

1.5

90 120

150

2.5

3.0

POSITIVE SUPPLY CURRENT

vs. TEMPERATURE

GR191-D

-140

0 2 6

1kHz FFT PLOT

-100

-40

GR191-E

FREQUENCY (kHz)

SIGNAL AMPLITUDE (dB)

-80

1 3 5

-120

-60

-20

= 1kHz

= 100kHz

SNR = 72dB

= +25˚C

-94.3dB-96.1dB-98.0dB-93.8dB

-140

0 10 30 40

10kHz FFT PLOT

-100

-60

GR191-F

FREQUENCY (kHz)

SIGNAL AMPLITUDE (dB)

-80

-120

-40

-20

= 10kHz

= 100kHz

SNR = 71.2dB

= +25˚C

5 20 25 35

-86.0dB -90.8dB

P1-P3 P4-P6 P7-P9 P10-P12 P13-P15 P16-P18 P19-P21 P22-P24

MAX191ACWG+

Mfr. #:

Buy MAX191ACWG+

Manufacturer:

Maxim Integrated

Description:

Analog to Digital Converters - ADC 12Bit 100ksps 5V Precision ADC

Lifecycle:

New from this manufacturer.

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MAX191ACWG+

MAX191ACWG+

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