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IC-HT Datasheet, PDF (13/42 Pages) IC-Haus GmbH – DUAL CW LASER DIODE DRIVER | |||
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iC-HT
DUAL CW LASER DIODE DRIVER
MICROCONTROLLER MODE
preliminary
Rev A1, Page 13/42
Setting pin EMC to hi conï¬gures iC-HT for microcon-
troller mode (MCU mode). Several parameters can
be conï¬gured through a microcontroller via I²C or SPI
communication. More information about the serial
communication interface can be found on page 21.
The conï¬guration of the internal parameters of iC-HT
must be done in conï¬guration mode. In this mode, the
conï¬guration memory can be written and read back
without changing the previous conï¬guration state of
iC-HT. Once the conï¬guration is considered as valid,
iC-HT can be switched to operation mode. These two
modes are conï¬gured by the MODE register. The time
elapsed in conï¬guration must not exceed 40 ms. If this
timeout is exceeded, both channels will be switched
off. More information on page 32.
Each individual channel can be enabled by setting pin
ECx to hi. Setting register bits DISCx to 1 disables
the corresponding channel. If either pin ECx is lo or
register bits DISCx is 1, the corresponding channel is
disabled.
ADCC1(2:0)
Addr. 0x10; bit 7:5
0xx
Disabled
100
V(MDA1), ADSNF1 = 0
100
V(PLR1), ADSNF1 = 1
101
V(VB)
110
V(VDD)
111
V(LDK1)
R/W 000
Table 8: ADC channel 1 source selection
ADCC2(2:0)
Addr. 0x15; bit 7:5
0xx
Disabled
100
V(MDA2), ADSNF2 = 0
100
V(PLR2), ADSNF2 = 1
101
V(VB)
110
V(VDD)
111
V(LDK2)
R/W 000
Table 9: ADC channel 2 source selection
DISC1
0
1
DISC2
0
1
Addr. 0x10; bit 3
Channel 1 can be enabled by pin EC1
Channel 1 cannot be enabled by pin EC1
R/W 1
Table 6: Disable channel 1
Addr. 0x15; bit 3
Channel 2 can be enabled by pin EC2
Channel 2 cannot be enabled by pin EC2
R/W 1
Table 7: Disable channel 2
With ADCCx(2:0) = 100, the signal to the A/D converter
is selected by register bit ADSNFx. With ADSNFx = 1
the measuring point to the A/D converter is the internal
sense node of the internal programmable logarithmic
monitor resistor (PLR). With ADSNFx = 0 the sensing
point is connected directly to MDAx pin.
Different voltages can be measured using a 10 bit A/D
converter with two resolutions. The following internal
voltages can be measured:
⢠V(LDKx) up to 8 V with 8.6 mV resolution
⢠V(VDD) up to 8 V with 8.6 mV resolution
⢠V(VB) up to 8 V with 8.6 mV resolution
⢠V(MDAx) up to 1 V with 1.075 mV resolution
⢠V(PLRx) up to 1 V with 1.075 mV resolution
The register bits ADCCx select the signal measured
with the 10 bit A/D converter.
ADSNF1
0
1
Addr. 0x1A; bit 2
ADC measurement pin MDA1 (force)
ADC measurement PLR1 (sense)
R/W 0
Table 10: ADC channel 1 sense/force selection
ADSNF2
0
1
Addr. 0x1A; bit 6
ADC measurement pin MDA2 (force)
ADC measurement PLR2 (sense)
R/W 0
Table 11: ADC channel 2 sense/force selection
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