MAX11008BETM+ Maxim Integrated Products, MAX11008BETM+ Datasheet - Page 8
MAX11008BETM+
Manufacturer Part Number
MAX11008BETM+
Description
RF Wireless Misc IC CTLR LDMOS BIAS DUAL
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX11008BETM.pdf
(67 pages)
Specifications of MAX11008BETM+
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
MISCELLANEOUS TIMING CHARACTERISTICS (Note 15) (continued)
(DV
C
Dual RF LDMOS Bias Controller with
Nonvolatile Memory
Note 1: Output settles to within ±0.5% of final value.
Note 2: Total unadjusted errors are for the entire gate-drive channel including the 12-bit DAC, and the gate driver is measured at
Note 3: V
Note 4: During power-on-reset, the output safe switch is closed. The output safe switch is opened under user software control.
Note 5: Guaranteed to be 11 bits linearly accurate.
Note 6: Offset nulled.
Note 7: The absolute range for analog inputs is from 0 to V
Note 8: Internal temperature-sensor performance is guaranteed by design.
Note 9: The MAX11008 and the external sensor are at the same ambient temperature. External sensor measurement error is tested
Note 10: Guaranteed monotonicity. Accuracy is degraded at lower V
Note 11: SDA/DIN is an open-drain output only when in I
Note 12: Supply-current limits are valid only when digital inputs are set to DGND or supply voltage. Timing specifications are only
Note 13: Shutdown supply currents are typically 0.4µA for AV
Note 14: All times are referred to the 50% point between V
Note 15: Guaranteed by design. Not production tested.
Note 16: DOUT will go into three-state mode after the CS rising edge. Keep CS low long enough for the DOUT value to be sampled
Note 17: A master device must provide a hold time of at least 300ns for the SDA signal (referred to V
Note 18: t
Note 19: C
Note 20: An appropriate bus pullup resistance must be selected depending on board capacitance.
Note 21: Input filters on the SDA and SCL inputs suppress noise spikes less than 50ns.
Note 22: When a command is written to the serial interface, the command is passed by the internal oscillator clock and executed.
Note 23: This is the minimum time from the end of a command before CNVST should be asserted. The time allows for the data from
8
DAC Power-Up Time (External
Reference)
DAC Power-Up Time (Internal
Reference)
Acquisition Time (Internally Timed
in ADC Clock Modes 00 or 01)
Conversion Time (Internally
Clocked)
Delay to Start of Conversion Time
Temperature Conversion Time
(Internally Clocked)
REF
DD
_______________________________________________________________________________________
= 0.1µF, T
= +2.7V to +5.25V, AV
the GATE1 and GATE2 outputs.
with a diode-connected 2N3904.
guaranteed when inputs are driven rail-to-rail.
before it goes to three-state.
the undefined region of SCL’s falling edge.
linearly interpolated.
There is a small synchronization delay before the new value is written to the appropriate register. If the serial interface
attempts to read the new value back before t
may not reflect the new value.
the preceding write to arrive and set up the chip in preparation for the CNVST. The time need only be observed when the
write affects the ADC controls. Failure to observe this time may lead to incorrect conversions (for example, conversion of
the wrong ADC channel).
R
GATE_
B
PARAMETER
and t
= total capacitance of one bus line in pF. For bus loads between 100pF and 400pF, the timing parameters should be
A
= V
F
= -40°C to +85°C, unless otherwise noted.)
measured between 0.3 x DV
DD
- 0.1. Measured from when OPSAFE1 or OPSAFE2 is set high.
DD
= +4.75V to +5.25V, V
SYMBOL
t
t
t
t
DPUEXT
CONVW
DPUINT
t
CONVT
CONV
t
ACQ
DD
Internally clocked, T
(Note 23)
and 0.7 x DV
RDBK
DGND
2
C mode. A1/DOUT is an open-drain output only when in SPI mode.
IH
AVDD
, the new data is not corrupted; however, the result of the read command
and V
DD
= V
DD
; maximum specification is limited by automated test equipment.
.
CONDITIONS
.
AGND
IL
REFDAC
levels.
A
= +25°C
= 0, external V
.
REFADC
= +2.5V, external V
MIN
IL
of the SCL signal) to bridge
TYP
1.3
70
70
2
REFDAC
MAX
0.6
10
= +2.5V,
UNITS
µs
µs
µs
µs
µs
µs
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