71M6541D Maxim, 71M6541D Datasheet - Page 19
71M6541D
Manufacturer Part Number
71M6541D
Description
The 71M6541D/71M6541F/71M6541G/71M6542F/71M6542G are Teridian™ 4th-generation single-phase metering SoCs with a 5MHz 8051-compatible MPU core, low-power RTC with digital temperature compensation, flash memory, and LCD driver
Manufacturer
Maxim
Datasheet
1.71M6541D.pdf
(166 pages)
Available stocks
Company
Part Number
Manufacturer
Quantity
Price
Company:
Part Number:
71M6541D-IGTR/F
Manufacturer:
Maxim Integrated
Quantity:
10 000
- Current page: 19 of 166
- Download datasheet (3Mb)
Table 4
All listed registers are 0 after reset and wake from battery modes, and are readable and writable.
2.2.3 Delay Compensation
When measuring the energy of a phase (i.e., Wh and VARh) in a service, the voltage and current for that
phase must be sampled at the same instant. Otherwise, the phase difference, Ф, introduces errors.
Where f is the frequency of the input signal, T = 1/f and t
voltage.
Traditionally, sampling is accomplished by using two A/D converters per phase (one for voltage and the
other one for current) controlled to sample simultaneously. Maxim’s Teridian Single-Converter
Technology, however, exploits the 32-bit signal processing capability of its CE to implement “constant
delay” all-pass filters. The all-pass filter corrects for the conversion time difference between the voltage
and the corresponding current samples that are obtained with a single multiplexed A/D converter.
The “constant delay” all-pass filter provides a broad-band delay 360
the difference in sample time between the voltage and the current of a given phase. This digital filter
does not affect the amplitude of the signal, but provides a precisely controlled phase response.
The recommended ADC multiplexer sequence samples the current first, immediately followed by
sampling of the corresponding phase voltage, thus the voltage is delayed by a phase angle Ф relative to
Rev 2
Name
MUX10_SEL[3:0]
Refer to
MUX0_SEL[3:0]
MUX1_SEL[3:0]
MUX2_SEL[3:0]
MUX3_SEL[3:0]
MUX4_SEL[3:0]
MUX5_SEL[3:0]
MUX6_SEL[3:0]
MUX7_SEL[3:0]
MUX8_SEL[3:0]
MUX9_SEL[3:0]
MUX_DIV[3:0]
FIR_LEN[1:0]
PLL_FAST
ADC_DIV
DIFFA_E
DIFFB_E
RMT_E
PRE_E
Delay compensation and other functions in the CE code require the settings for MUX_DIV[3:0],
MUXx_SEL[3:0], RMT_E, FIR_LEN[1:0], ADC_DIV and PLL_FAST to be fixed for a given CE code.
Refer to
71M6542F/G.
summarizes the I/O RAM registers used for configuring the multiplexer, signals pins, and ADC.
Table 76
Table 1
starting on page
Location
2105[3:0]
2105[7:4]
2104[3:0]
2104[7:4]
2103[3:0]
2103[7:4]
2102[3:0]
2102[7:0]
2101[3:0]
2101[7:0]
2100[3:0]
2100[7:4]
210C[1]
210C[4]
210C[5]
2200[5]
2200[4]
2709[3]
2704[5]
and
Table 4: Multiplexer and ADC Configuration Bits
Table 2
Description
Selects the ADC input converted during time slot 0.
Selects the ADC input converted during time slot 1.
Selects the ADC input converted during time slot 2.
Selects the ADC input converted during time slot 3.
Selects the ADC input converted during time slot 4.
Selects the ADC input converted during time slot 5.
Selects the ADC input converted during time slot 6.
Selects the ADC input converted during time slot 7.
Selects the ADC input converted during time slot 8.
Selects the ADC input converted during time slot 9.
Selects the ADC input converted during time slot 10.
Controls the rate of the ADC and FIR clocks.
The number of ADC time slots in each multiplexer frame (maximum = 11).
Controls the speed of the PLL and MCK.
Determines the number of ADC cycles in the ADC decimation FIR filter.
Enables the differential configuration for analog input pins IAP-IAN.
Enables the differential configuration for analog input pins IBP-IBN.
Enables the remote sensor interface transforming pins IBP-IBN into a
digital balanced differential pair for communications with the 71M6x01
sensor.
Enables the 8x pre-amplifier.
111
φ
for the settings that are applicable to the 71M6541D/F/G and
=
for more complete details about these I/O RAM locations.
t
delay
T
⋅
360
o
=
t
delay
delay
⋅
71M6541D/F/G and 71M6542F/G Data Sheet
is the sampling delay between current and
f
⋅
360
o
o
– θ, which is precisely matched to
19
Related parts for 71M6541D
Image
Part Number
Description
Manufacturer
Datasheet
Request
R
Part Number:
Description:
The DS5250 is a highly secure, four clocks-per-machine cycle, 100% 8051-instruction-set-compatible microprocessor in Maxim's secure microcontroller family
Manufacturer:
Maxim
Datasheet:
Part Number:
Description:
The MAX9263/MAX9264 chipset extends Maxim's gigabit multimedia serial link (GMSL) technology to include high-bandwidth digital content protection (HDCP) encryption for content protection of DVD and Blu-ray™ video and audio data
Manufacturer:
Maxim
Part Number:
Description:
The Maxim MXL1016 (10ns, typ) high-speed, complementary-output comparator is designed specifically to
interface directly to TTL logic while operating from
either a dual ±5V supply or a single +5V supply
Manufacturer:
Maxim
Datasheet:
Part Number:
Description:
Maxim's DG300–DG303 and DG300A–DG303A CMOS dual and quad analog switches combine low power operation with fast switching times and superior DC and AC switch characteristics
Manufacturer:
Maxim
Datasheet:
Part Number:
Description:
Maxim's DG300–DG303 and DG300A–DG303A CMOS dual and quad analog switches combine low power operation with fast switching times and superior DC and AC switch characteristics
Manufacturer:
Maxim
Datasheet:
Part Number:
Description:
Maxim's DG300–DG303 and DG300A–DG303A CMOS dual and quad analog switches combine low power operation with fast switching times and superior DC and AC switch characteristics
Manufacturer:
Maxim
Datasheet:
Part Number:
Description:
Maxim's DG300–DG303 and DG300A–DG303A CMOS dual and quad analog switches combine low power operation with fast switching times and superior DC and AC switch characteristics
Manufacturer:
Maxim
Datasheet:
Part Number:
Description:
Maxim's redesigned DG401/DG403/DG405 analog switches now feature guaranteed low on-resistance matching between switches (2Ω max) and guaranteed on-resistance flatness over the signal range (3Ω max)
Manufacturer:
Maxim
Datasheet:
Part Number:
Description:
Maxim's redesigned DG401/DG403/DG405 analog switches now feature guaranteed low on-resistance matching between switches (2Ω max) and guaranteed on-resistance flatness over the signal range (3Ω max)
Manufacturer:
Maxim
Datasheet:
Part Number:
Description:
Maxim's redesigned DG401/DG403/DG405 analog switches now feature guaranteed low on-resistance matching between switches (2Ω max) and guaranteed on-resistance flatness over the signal range (3Ω max)
Manufacturer:
Maxim
Datasheet:
Part Number:
Description:
Maxim's redesigned DG406 and DG407 CMOS analog multiplexers now feature guaranteed matching between channels (8Ω max) and flatness over the specified signal range (9Ω max)
Manufacturer:
Maxim
Datasheet:
Part Number:
Description:
Maxim's redesigned DG406 and DG407 CMOS analog multiplexers now feature guaranteed matching between channels (8Ω max) and flatness over the specified signal range (9Ω max)
Manufacturer:
Maxim
Datasheet:
Part Number:
Description:
Maxim's redesigned DG408 and DG409 CMOS analog multiplexers now feature guaranteed matching between channels (8Ω max) and flatness over the specified signal range (9Ω max)
Manufacturer:
Maxim
Datasheet:
Part Number:
Description:
Maxim's redesigned DG408 and DG409 CMOS analog multiplexers now feature guaranteed matching between channels (8Ω max) and flatness over the specified signal range (9Ω max)
Manufacturer:
Maxim
Datasheet:
Part Number:
Description:
Maxim's redesigned DG411/DG412/DG413 analog switches now feature low on-resistance matching between switches (3Ω max) and guaranteed on-resistance flatness over the signal range (Δ4Ω max)
Manufacturer:
Maxim
Datasheet: