MAX148BEAP Maxim Integrated Products, MAX148BEAP Datasheet - Page 17
MAX148BEAP
Manufacturer Part Number
MAX148BEAP
Description
ADC (A/D Converters)
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX148BCAP.pdf
(23 pages)
Specifications of MAX148BEAP
Number Of Adc Inputs
8
Architecture
SAR
Conversion Rate
133 KSPs
Resolution
10 bit
Input Type
Voltage
Interface Type
4-Wire (SPI, QSPI, Microwire, TMS320)
Voltage Reference
Internal 2.5 V or External
Supply Voltage (max)
5 V
Maximum Power Dissipation
640 mW
Maximum Operating Temperature
+ 85 C
Mounting Style
SMD/SMT
Package / Case
SSOP-20
Minimum Operating Temperature
- 40 C
Lead Free Status / Rohs Status
No
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Part Number:
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Software power-down is activated using bits PD1 and
PD0 of the control byte. As shown in Table 5, PD1 and
PD0 also specify the clock mode. When software shut-
down is asserted, the ADC operates in the last specified
clock mode until the conversion is complete. Then the
ADC powers down into a low quiescent-current state.
In internal clock mode, the interface remains active
and conversion results may be clocked out after the
MAX148/MAX149 enter a software power-down.
Figure 14b. MAX149 Supply Current vs. Conversion Rate,
FASTPD
Figure 14c. Typical Reference-Buffer Power-Up Delay vs.
Time in Shutdown
10,000
1000
100
2.0
1.5
1.0
0.5
0
1
0
0.001
TYPICAL REFERENCE-BUFFER POWER-UP
0.1
vs. CONVERSION RATE (USING FASTPD)
R
CODE = 1010101000
______________________________________________________________________________________
LOAD
DELAY vs. TIME IN SHUTDOWN
+2.7V to +5.25V, Low-Power, 8-Channel,
1
AVERAGE SUPPLY CURRENT
= ∞
0.01
CONVERSION RATE (Hz)
TIME IN SHUTDOWN (s)
10
8 CHANNELS
100
0.1
1k
Software Power-Down
10k
1 CHANNEL
1
100k
1M
10
The first logical 1 on DIN is interpreted as a start bit and
powers up the MAX148/MAX149. Following the start bit, the
data input word or control byte also determines clock mode
and power-down states. For example, if the DIN word con-
tains PD1 = 1, then the chip remains powered up. If PD0
= PD1 = 0, a power-down resumes after one conversion.
Pulling SHDN low places the converter in hardware pow-
er-down (Table 6). Unlike software power-down mode, the
conversion is not completed; it stops coincidentally with
SHDN being brought low. SHDN also controls the clock
frequency in internal clock mode. Leaving SHDN uncon-
nected sets the internal clock frequency to 1.8MHz. When
returning to normal operation with SHDN unconnected,
there is a t
is the capacitive loading on the SHDN pin. Pulling SHDN
high sets internal clock frequency to 225kHz. This feature
eases the settling-time requirement for the reference volt-
age. With an external reference, the MAX148/MAX149
can be considered fully powered up within 2Fs of actively
pulling SHDN high.
The MAX148/MAX149 auto power-down modes can
save considerable power when operating at less than
maximum sample rates. Figures 13, 14a, and 14b show
the average supply current as a function of the sampling
rate. The following discussion illustrates the various
power-down sequences.
The following examples show two different power-down
sequences. Other combinations of clock rates, compen-
sation modes, and power-down modes may give lowest
power consumption in other applications.
Figure 14a depicts the MAX149 power consumption for
one or eight channel conversions utilizing full power-
down mode and internal-reference compensation. A
0.01FF bypass capacitor at REFADJ forms an RC filter
with the internal 20kI reference resistor with a 0.2ms
time constant. To achieve full 10-bit accuracy, 8 time
constants or 1.6ms are required after power-up. Waiting
this 1.6ms in FASTPD mode instead of in full power-up
can reduce power consumption by a factor of 10 or
more. This is achieved by using the sequence shown in
Figure 15.
RC
Serial 10-Bit ADCs
delay of approximately 2MI x C
Power-Down Sequencing
Conversions/Channel/Second
Lowest Power at Up to 500
Hardware Power-Down
L
, where C
17
L
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