Datasheet
MAX11359A
16-Bit Data-Acquisition System with ADC, DAC,
UPIOs, RTC, Voltage Monitors, and Temp Sensor
30
Maxim Integrated
Program each UPIO1–UPIO4 as one of the following:
• General-purpose input
• Power-mode control
• Analog switch (SPST) and SPDT control input
• ADC data-ready output
• General-purpose output
• PWM output
• Alarm output
• SPI passthrough
Temperature Sensors
The internal temperature sensor measures die tempera-
ture, and the external temperature sensor measures
remote temperatures. Use the internal temperature sen-
sor or external temperature sensor (remote transistor/
diode) with the ADC and internal current sources to
measure the temperature. For either method, two to four
currents are passed through a p-n junction and sense
resistor, and its temperature is calculated by a µC
using the diode equation and the forward-biased junc-
tion voltage drops measured by the ADC. The tempera-
ture offset between the internal p-n junction and
ambient is negligible. For the four and eight measure-
ment methods, the ratio of currents used in the diode
calculations is precisely known since the ADC mea-
sures the resulting voltage across the same sense
resistor. See Figure 13 for a block diagram of the tem-
perature sensor.
M32K
TUNE<8:0>
HFCE
FLLE
CRDY
HFCLK
1, 2, 4, 8
DIVIDER
2:1
MUX
CLK
CLKE
CKSEL<1:0>
CKSEL2
1
0
4.9152MHz HF OSCILLATOR AND FLL
4.9152MHz
32.768kHz
FREQUENCY
COMPARE
FREQ
ERROR
DIGITALLY
CONTROLLED
OSCILLATOR
FREQUENCY
INTEGRATOR
Figure 12. High-Frequency Clock and FLL Block Diagram
Figure 13. Temperature-Sensor Measurement Block Diagram
CURRENT
SOURCE
1:3
DEMUX
IVAL<1:0>
IMUX<1:0>
AIN1
AIN2
AIN1
AIN2
TEMP+
TEMP-
PROGRAMMABLE CURRENT SOURCE
TEMP SENSOR