71m6545h-igtr/f Maxim Integrated Products, Inc., 71m6545h-igtr/f Datasheet - Page 102
71m6545h-igtr/f
Manufacturer Part Number
71m6545h-igtr/f
Description
Metrology Processors
Manufacturer
Maxim Integrated Products, Inc.
Datasheet
1.71M6545H-IGTRF.pdf
(134 pages)
Data Sheet 71M6545/H
5.4.6 CE Front End Data (Raw Data)
Access to the raw data provided by the AFE is possible by reading CE RAM addresses 0 through A, as
shown in
and ‘x’ refers to the desired ADC input number or ADC handle (i.e., IADC0 to VADC10, or simply 0 to 10
decimal).
The 71M6545/H can support up to eleven sensor inputs, when all the current sensors are configured as
single-ended inputs. If all the current sensor inputs are configured as differential (recommended for
best performance), the number of input sensor channels is reduced to seven (i.e., IADC0-1, IADC2-3,
IADC4-5, IADC6-7, VADC8, VADC9 and VADC10). The MUXn_SEL[3:0] column in
MUXn_SEL handles for the various sensor input pins. For example, if differential mode is enabled via
control bit DIFF0_E = 1 (I/O RAM 0x210C[4]), then the IADC0-IADC1 input pins are combined together to
form a single differential input and the corresponding MUXn_SEL handle is 0 (i.e., handle 1 is then unused).
Similarly, the CE RAM location column provides the CE RAM address where the corresponding sample data
is stored. Continuing with the same example, if DIFF0_E = 1, the corresponding CE RAM location where the
samples for the IADC0-IADC1 differential input are stored is CE RAM 0.
The IADC2-3, IADC4-5 and IADC6-7 inputs can be configured as direct-connected sensors (i.e., directly
connected to the 71M6545/H) or as remote sensors (i.e., using a 71M6xx3 Isolated Sensor). For example, if
the IADC2-3 remote sensor is disabled by RMT2_E = 0 (I/O RAM 0x2007[3]) and differential mode is enabled
by DIFF2_E = 1 (I/O RAM 0x210C[4]), then IADC2-IADC3 form a differential input with a MUXn_SEL handle
of 2 (i.e., handle 3 is then unused), and the corresponding samples are stored in CE RAM location 2. If the
remote sensor enable bit RMT2_E = 1, DIFF2_E = x (don’t care), then the MUXn_SEL handle is not required
(i.e., the sensor is not connected to the 71M6545/H multiplexer, so MUXn_SEL does not apply), and the
samples corresponding to this remote differential IADC2-IADC3 input are stored in CE RAM location 2
directly by the digital isolation interface (see
The voltage sensor inputs (VADC8, VADC9 and VADC10) are always single-ended inputs and cannot be
configured as remotes, so they do not have any associated configuration bits. VADC8 (VA) has a
MUXn_SEL handle value of 8, and its samples are stored in CE RAM location 8. VADC9 (VB) has a
MUXn_SEL handle value of 9 and its samples are stored in CE RAM location 9. VADC10 (VC) has a
MUXn_SEL handle value of 10 and its samples are stored in CE RAM location 10.
102
Table
*Remote interface data
64. In the expression MUXn_SEL[3:0] = x, ‘n’ refers to the multiplexer frame time slot number
VADC10 (VC)
VADC8 (VA)
VADC9 (VB)
IADC0
IADC1
IADC2
IADC3
IADC4
IADC5
IADC6
IADC7
Pin
© 2008–2011 Teridian Semiconductor Corporation
Table 64: CE Raw Data Access Locations
0,0
0,0
0,0
10
0
0
1
2
3
4
5
6
7
8
9
DIFF0_E
MUXn_SEL Handle
RMT2_E, DIFF2_E
RMT4_E, DIFF4_E
RMT6_E, DIFF6_E
There are no configuration bits for VADC8, 9, 10
Figure
0,1
0,1
0,1
1
0
2
4
6
2).
1,0
1,0
1,0
-
-
-
1,1
1,1
1,1
-
-
-
0,0
0,0
0,0
10
0
0
1
2
3
4
5
6
7
8
9
DIFF0_E
CE RAM Location
RMT2_E, DIFF2_E
RMT4_E, DIFF4_E
RMT6_E, DIFF6_E
0,1
0,1
0,1
1
0
2
4
6
1,0
1,0
1,0
2*
4*
6*
Table 64
1,1
1,1
1,1
2*
4*
6*
PDS_6545_009
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