MAX11008 Datasheet, PDF(26/67 Page) Maxim Integrated Products – Dual RF LDMOS Bias Controller with Nonvolatile Memory

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MAX11008 Datasheet, PDF (26/67 Pages) Maxim Integrated Products – Dual RF LDMOS Bias Controller with Nonvolatile Memory

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Dual RF LDMOS Bias Controller with

Nonvolatile Memory

complete the ADC powers down, BUSY is pulled low,

and the results for all of the selected channels are

available in the FIFO.

The duration of the BUSY pulse is additive, depending

on the channel conversion sequence selected. The

BUSY pulse is set typically for 72Âµs by temperature

conversions; 52Âµs by PGAOUT conversions, and 7Âµs

by ADCIN conversions.

Clock Mode 01

In clock mode 01, power-up, acquisition, conversion,

and power-down are all initiated through a single pulse

on CNVST and performed automatically using the inter-

nal oscillator. Initiate a scan by writing to the ADC con-

version register and setting CNVST low for at least

20ns. The ADC sets the BUSY output high, powers up,

and scans all requested channels storing the results in

the FIFO if the ADCMON bit has been set. After the

scan is complete, the ADC powers down, BUSY is

pulled low, and the results for all of the selected chan-

nels are available in the FIFO. The BUSY pulse behav-

ior is identical to that of clock mode 00.

Externally Timed

Acquisitions and Conversions

Clock Mode 10

Clock mode 10 is reserved. Do not use this clock

mode.

Clock Mode 11

In clock mode 11, set the FBGON bit. Conversions are

initiated one at a time through CNVST and performed

using the internal oscillator. In this mode, the acquisition

time is controlled by the time CNVST is low. CNVST is

resynchronized by the internal oscillator, resulting in a

one-clock cycle (typically 320ns) uncertainty in the exact

sampling instant. Different timing parameters apply

depending if the conversion is temperature, from ADCIN,

or from PGAOUT (as specified in the Clock Mode 00

section). Figure 15 shows a conversion time example.

Both internal and external temperature conversions are

internally timed. Pull CNVST low for a minimum of 20ns

(tCNV11) to trigger a temperature conversion. The BUSY

output goes high and the temperature conversion result

is available in the FIFO (if the ADCMON bit is set) 72Âµs

(typ) after BUSY goes low again.

CNVST

INTERNAL TEMPERATURE READING, PGA1 OUTPUT, AND ADCIN1 CONVERSION TIMING IN CLOCK MODE 11

tCNV = 20ns (typ)

tACQ = 30Âµs (typ)

tACQ = 1.5Âµs (typ)

BUSY

INTERNAL

OPERATIONS

TEMPERATURE

CONVERSION

70Âµs (typ)

IDLE MODE,

REF AND

TEMP

SENSOR

POWERED

PGA 1

ACQUISITION

PGA 1

CONVERSION

22Âµs (typ)

IDLE MODE,

REF AND

TEMP

SENSOR

POWERED

END OF

SCAN

WRITE TO ADC

CONVERT REGISTER TO

SET UP ADC SCAN

FBGON = 1,

ADCMON = 1

TEMPERATURE

CONVERSION RESULT

AVAILABLE IN FIFO

Figure 15. ADC Clock Mode 11 Example

PGA 1 OUTPUT

CONVERSION

RESULT AVAILABLE

IN FIFO

ADCIN 1

CONVERSION

RESULT AVAILABLE

IN FIFO

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