參數(shù)資料
型號: MIC184
廠商: Micrel Semiconductor,Inc.
英文描述: Local/Remote Thermal Supervisor Advance Information
中文描述: 本地/遠(yuǎn)程熱監(jiān)進(jìn)展信息
文件頁數(shù): 15/21頁
文件大小: 140K
代理商: MIC184
November 2000
15
MIC184
MIC184
Applications Information
Switching Zones
The recommended procedure for switching between the
internal and external zones is as follows:
1. Disable interrupts (if used)
by setting the IM bit in CONFIG.
2. Read the CONFIG register to:
a) Verify no masked interrupt was pending
(D[7] = 0)
b) Clear STS prior to switching zones
c) Hold the settings of CONFIG register for the
current zone
3. Write the appropriate values to
T_SET and T_HYST for the new zone.
4. Write to CONFIG as follows:
a) To toggle the ZONE bit (1 = remote, 0 =
internal)
b) If interrupts are being used, step 4 should
also clear MODE
5. If interrupts are being used, MODE must then be
set to 1 and IM reset to 0
At the conclusion of the serial bus transaction for step 4, the
A/D converter will begin a conversion cycle using the new
zone setting. The next conversion cycle completed afterthe
serial bus transaction for step 5 will result in the state of the
INT output being updated (if enabled) for the new zone.
Generally the MIC184
s A/D converter operates continu-
ously, but it will be halted and reset each time the part
recognizes its slave address on the serial bus. Interrupted
conversions will remain halted until the end of the host
s
communication with the MIC184. After the completion of step
5 and a delay of t
CONV
x Fault_Queue, STS and INT will
contain the results for the new zone. The above routine is
extremely unlikely to miss a temperature event, as even one
A/D conversion is typically much slower than the I
2
C/SMBus
transactions that control the MIC184. See Figure 6: A/D
Converter Timing.
Step 2(c) is recommended because the MIC184 has only one
CONFIG register, corresponding to the active zone. In order
to preserve data integrity for both zones, 2(c) allows the host
to create a virtual CONFIG register for the inactive zone by
dedicating one byte of memory to that purpose. Additional
virtual registers may be created as needed by inserting
additional reads as steps 2(d), 2(e), etc. These could for
example correspond to the values in T_SET and T_HYST
immediately prior to switching zones. Steps 4(b) and 5
ensure that the MIC184 will enter the new zone searching for
an overtemperature event.
Micrel
Identifying an MIC184 by Software Test
The MIC184 and the LM75 each have an eight-bit
CONFIG register. In LM75-type parts, no more than seven
of the eight bits of this register are used, and at least one
bit (the MSB) will always return a zero. The MIC184 uses
all eight bits of the CONFIG register: the MSB is the part’s
status bit (STS). A simple test by which the host can
determine whether a system has an MIC184 installed, or is
using a legacy LM75-type device, is to create a situation
which will set the MSB in the MIC184’s CONFIG register
and then determine if the MSB is in fact set. Two examples
of how this can be done are outlined below. The first is
interrupt-driven, the second uses software polling. Note
that both procedures generate one or more spurious
interrupts. The code for these tests should therefore
temporarily disable any affected interrupt routines.
{START Interrupt-Driven Test and Initialization
Routine}
1. Disable the host
s overtemperature and
undertemperature interrupt handling routine.
Redirect interrupts from the part under test to a
handler for the interrupt that will be generated in
steps (4) and (7) of this routine.
2. Write 0000 0010b (02h) to the CONFIG register.
(The assumption is made that the host is an I
2
C
or SMBus part, and therefore responds to an
active-low interrupt request.)
3. Write 1100 1000 1000 0000b = C880h to T_SET
and T_HYST. This corresponds to -55.5
°
C.
4. When the part has finished its first A/D conver-
sion, INT will be asserted.
5. Read out the contents of the CONFIG register:
a)
If the part is an MIC184, the MSB will be set
to one (CONFIG = 1000 0010b = 82h).
b)
If the part is a conventional LM75-type part,
the MSB will be zero (CONFIG = 0000
0010b = 02h).
6.Write 0111 1111 1000 0000b = 7F80h to T_SET
and T_HYST. This corresponds to +127.5
°
C.
7.When the part has finished its next A/D conver-
sion, INT will be asserted a second time.
8.Read CONFIG again, to clear the interrupt
request from step (7). This will also clear STS, if
the part under test is an MIC184.
9.Based on the results of the test in step (4), do the
following within 50ms total:
a)
Set the CONFIG register as required.
b)
Load T_HYST with its operational value.
c)
Load T_SET with its operational value.
d)
Set the host
s interrupt handling routine back
to overtemperature and undertemperature
mode.
{END}
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MIC184_06 制造商:MICREL 制造商全稱:Micrel Semiconductor 功能描述:Local/Remote Thermal Supervisor
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