MAX1385EVC16 Maxim Integrated Products, MAX1385EVC16 Datasheet - Page 26
MAX1385EVC16
Manufacturer Part Number
MAX1385EVC16
Description
Power Management Modules & Development Tools EVALUATION KIT FOR T FOR THE MAX1385BETM+
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX1385EVC16.pdf
(52 pages)
Specifications of MAX1385EVC16
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Dual RF LDMOS Bias Controllers
with I
In hysteresis-threshold mode, ADC readings of
current/temperature are compared to the configured
current/temperature low/high thresholds that are pro-
grammed to cause an alarm condition. If an ADC read-
ing exceeds its respective configured threshold and
ALARM is configured for output-comparator mode,
ALARM asserts until the current/temperature reading
falls back below its respective threshold. If an ADC
reading exceeds its respective configured threshold
and ALARM is configured for output-interrupt mode,
ALARM asserts until the Flag register is read. See
Figures 9 and 10.
Communicate with the MAX1385/MAX1386 through the
I
write operations consist of slave address bytes, com-
mand bytes, and data bytes. The following register
descriptions cover the contents of command bytes and
data bytes. See the Digital Serial Interface section for a
detailed description of how to construct full read and
write operations. All registers are volatile and are reset
to default states upon removal of power. These default
states are referred to as power-on reset (POR) states.
All accessible MAX1385/MAX1386 registers are shown
in Table 2.
Figure 9. Hysteresis-Threshold-Mode Diagram
26
2
C/SPI-compatible serial interface. Complete read and
______________________________________________________________________________________
ALARM OUTPUT ASSERTED
ALARM OUTPUT ASSERTED
2
FALLS BELOW THIS LEVEL
WHEN MEASURED VALUE
WHEN MEASURED VALUE
RISES ABOVE THIS LEVEL
*ONLY WHEN ALARM IS CONFIGURED FOR OUTPUT-COMARATOR MODE.
WHEN IN OUTPUT-INTERRUPT MODE, FLAG REGISTER MUST BE READ
FOR ALARM TO BE DEASSERTED.
C/SPI Interface
Hysteresis-Threshold Mode
Register Descriptions
RANGE OF VALUES THAT DO NOT CAUSE AN ALARM
Write to Channel 1 and Channel 2 High Temperature
Threshold registers by sending the appropriate write
command byte followed by data bits D15–D0 (see Table
3). Bits D15–D12 are don’t care. Read channel 1 and
channel 2 high-temperature thresholds by sending the
appropriate read command byte. Channel 1 and
Channel 2 Temperature Threshold registers are com-
pared to temperature readings from the remote diode
connected transistors. Temperature data is in two’s-com-
plement format and the LSB corresponds to 1/8°C (see
Figure 26 for the Temperature Transfer Function).
Write to Channel 1 and Channel 2 Low-Temperature-
Threshold registers by sending the appropriate write
command byte followed by data bits D15–D0 (see Table
4). Bits D15–D12 are don’t care. Read channel 1 and
channel 2 low-temperature thresholds by sending the
appropriate read command. Channel 1 and Channel 2
Temperature Threshold registers are compared to tem-
perature readings from the remote diode connected tran-
sistors. Temperature data is in two’s-complement format
and the LSB corresponds to 1/8°C (see Figure 26 for the
Temperature Transfer Function).
LOW THRESHOLD
LOWEST POSSIBLE THRESHOLD
VALUE (DEFAULT VALUE FOR LOW
THRESHOLD REGISTER)
HIGH THRESHOLD
HIGHEST POSSIBLE THRESHOLD
VALUE (DEFAULT VALUE FOR HIGH
THRESHOLD REGISTER)
TH1 and TH2 (Read/Write)
TL1 and TL2 (Read/Write)
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