MAX1385BUTM+ Maxim Integrated Products, MAX1385BUTM+ Datasheet - Page 47
MAX1385BUTM+
Manufacturer Part Number
MAX1385BUTM+
Description
RF Wireless Misc IC RF LDMOS BIAS CNTRLR
Manufacturer
Maxim Integrated Products
Datasheet
1.MAX1385EVC16.pdf
(52 pages)
Specifications of MAX1385BUTM+
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
written to the Coarse DAC1/DAC2 Input Low Wiper reg-
ister. The resulting output when the low wiper is higher
than the high wiper is:
The MAX1385/MAX1386 do not power on all internal
blocks when full power is first applied. Software must
write to register 0x64 twice with bit D7 set to 0 during
initialization to enable full operation. A basic initializa-
tion sequence is shown in Table 27.
Table 27. Basic Software Initialization
Table 26. Temperature-Threshold
Settings Examples
COMMAND
TEMPERATURE SETTING
−
BYTE
0x2A
0x2C
0x7A
0x7C
0x64
0x64
0x20
0x22
0x24
0x26
0x28
0x2E
0x30
0x32
0x60
0x74
0x76
0x52
0x56
V
DACREF
2
18
+27.125°C
-1.625°C
+105°C
-40°C
0°C
×
0x00CC
0x00CC
0x0EC0
0x02C1
0x0EC0
0x02C1
0x02A8
0x02A8
WORD
0x0008
0x0008
0x0106
0x0106
0x000F
0x0000
0x0000
0x0066
0x0066
0x01FF
0x01FF
DATA
FINECODE
______________________________________________________________________________________
Basic Software Initialization
Bring the device out of shutdown mode.
Set internal reference and both DAC channels on.
Set the channel 1 high-temperature threshold to +85°C.
Set the channel 1 low-temperature threshold to -40°C.
Set the channel 1 high-current threshold to 4.3A for 50mΩ R
Set the channel 1 low-current threshold to 1.6A for 50mΩ R
Set the channel 2 high-temperature threshold to +85°C.
Set the channel 2 low-temperature threshold to -40°C.
Set the channel 2 high-current threshold to 4.3A for 50mΩ R
Set the channel 2 low-current threshold to 1.6A for 50mΩ R
Set Av
Set ALARM, SAFE1, and SAFE2 to depend on nothing (POR).
Set ALARM, SAFE1, and SAFE2 for push-pull/active-high (POR).
Set coarse DAC1 high wiper to 204.
Set coarse DAC1 low wiper to 102 (V
Set coarse DAC2 high wiper to 204.
Set coarse DAC2 low wiper to 102 (V
Set fine DAC1 to midscale.
Set fine DAC2 to midscale.
+
V
DACREF
PGA1
TWO’S COMPLEMENT
2
8
1110 1100 0000
1111 1111 0011
0000 0000 0000
0000 1101 1001
0011 0100 1000
and Av
Dual RF LDMOS Bias Controllers
×
LOWCODE
PGA2
to 2, clock mode to 00 and ADC/DAC references to internal.
GATE
GATE
The MAX1385/MAX1386 can be used along with a
microcontroller to perform closed-loop regulation of the
LDMOS FET bias current. For example, software can
read the temperature and use a calibrated look-up
table to determine a new value for the gate drive.
As an example, in noncontinuous conversion mode,
read temperature from remote diode 1 by writing to the
ADCCON register (0x62) with bit D1 set to 1. Wait for
BUSY to go high and then low. Read the ADC result
from the FIFO (0x80). The result bits D15–D12 = 0001
indicate the measurement source is the external tem-
perature sensor DXP1/DXN1, and bits D11–D3 indicate
two’s-complement temperature in degrees Celsius. Bits
D2, D1, and D0 are temperature subLSBs.
Gate voltage drive range must be previously deter-
mined during initialization by setting the coarse DAC1
high and low limits. Write a new value to FINETHRU1 to
immediately change the output GATE1 between the
high and low wiper limits based on the previous tem-
perature measurement.
The regulation software may also use the alarm thresh-
old limits to determine whether temperature and current
= 1.99V for MAX1385, V
= 1.99V for MAX1385, V
with I
DESCRIPTION
Regulating VGS vs. Temperature
SENSE
SENSE
2
SENSE
SENSE
C/SPI Interface
, Av
, Av
, Av
, Av
GATE
GATE
PGA
PGA
PGA
PGA
= 3.98V for MAX1386).
= 3.98V for MAX1386).
= 2, and V
= 2, and V
= 2, and V
= 2, and V
REFADC
REFADC
REFADC
REFADC
= 2.5V.
= 2.5V.
= 2.5V.
= 2.5V.
47
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