71m6515h Maxim Integrated Products, Inc., 71m6515h Datasheet - Page 52
71m6515h
Manufacturer Part Number
71m6515h
Description
71m6515h Energy Meter Ic
Manufacturer
Maxim Integrated Products, Inc.
Datasheet
1.71M6515H.pdf
(57 pages)
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Methods of Control
Two different methods of control can be used by the host processor:
The communication between the 71M6515H and the host processor can always be reset without disturbing the metering
function by utilizing the UARTCSZ and BAUDRATE pins. Configuring the BAUDRATE pin without resetting the UART buffers
is not recommended. The UART of the 71M6515H can be “reset” by pulling the UARTCSZ pin low. This will force the UART
back into the default configuration while clearing all buffers (UART buffers, UART-related buffers in the firmware).
Page: 52 of 57
1)
2)
Synchronization using the IRQZ pin of the 71M6515H (interrupt or DIO pin polling method, see Figure 20):
a. Interrupt Method: The IRQZ pin of the 71M6515H is connected to a pin of the host processor that can generate an
interrupt for the host processor. This is the easiest method for synchronization between the 71M6515H and the host.
The CONFIG register of the 71M6515H is set up to generate an interrupt on the IRQZ pin whenever fresh data are
ready, and the interrupt service routine of the host processor reads the fresh data out of the 71M6515H.
b. DIO pin polling method: The IRQZ pin of the 71M6515H is connected to a DIO pin of the host processor. The host
processor polls the status of the DIO pin as frequently as possible or through a timer-based polling method. The
CONFIG register of the 71M6515H is set up to have the IRQZ pin to go low on every fresh data ready status, and the
timer-serviced polling of the host processor will monitor the status of the DIO pin and initiate the serial communication
when IRQZ is detected. For this method to be effective, the firmware of the host processor must maintain the timer
interrupt to be the highest priority, followed by the serial communications priority.
Polling the READY bit in the STATUS word of the 71M6515H (status polling method, see Figure 21).
This method requires that the host processor utilizes a timer with 1ms to 5ms resolution tied into the highest-priority
interrupt. The interrupt service routine must initiate reading the STATUS register, preferably at least every 10ms, in
order to monitor the READY bit, but the host processor must wait for the response of each status request. Otherwise,
the STATUS register read operations will be stacked in the 71M6515H resulting in multiple responses.
If a delayed response is received upon a STATUS register read, the host processor will know that the 71M6515H is
within its post-processing period, which makes it necessary hat the host waits for the response. Every time the READY
bit in the STATUS register is not set, indicating that data is not available, the host should poll again
200ms
Figure 20: Timing Diagram (Using IRQZ, SUM_CYCLES = 12)
post-processor
IRQZ
active
80ms
© 2005-2008 TERIDIAN Semiconductor Corporation
command
from host
read
6515H data
300ms
400ms
post-processor
80ms
active
command
from host
read
6515H data
Energy Meter IC
500ms
DATA SHEET
71M6515H
time
MARCH 2008
V1.4
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