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X40015S8-B 데이터시트 PDF




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부품번호 X40015S8-B 기능
기능 Dual Voltage Monitor with Integrated CPU Supervisor
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X40015S8-B 데이터시트, 핀배열, 회로
New Features
• Monitor Voltages: 5V to 0.9V
• Independent Core Voltage Monitor
Preliminary Datasheet
X40010/X40011/X40014/X40015
Dual Voltage Monitor with Integrated CPU Supervisor
FEATURES
• Dual voltage detection and reset assertion
—Standard reset threshold settings
See Selection table on page 2.
—Adjust low voltage reset threshold voltages
using special programming sequence
—Reset signal valid to VCC = 1V
—Monitor three voltages or detect power fail
• Independent Core Voltage Monitor (V2MON)
• Fault detection register
• Selectable power on reset timeout (0.05s,
0.2s, 0.4s, 0.8s)
• Selectable watchdog timer interval (25ms, 200ms,
1.4s, off)
• Low power CMOS
—25µA typical standby current, watchdog on
—6µA typical standby current, watchdog off
• 400kHz 2-wire interface
• 2.7V to 5.5V power supply operation
• Available packages
—8-lead SOIC, TSSOP
APPLICATIONS
• Communication Equipment
—Routers, Hubs, Switches
—Disk Arrays, Network Storage
• Industrial Systems
—Process Control
—Intelligent Instrumentation
• Computer Systems
— Computers
—Network Servers
DESCRIPTION
The X40010/11/14/15 combines power-on reset con-
trol, watchdog timer, supply voltage supervision, and
secondary voltage supervision, in one package. This
combination lowers system cost, reduces board space
requirements, and increases reliability.
Applying voltage to VCC activates the power on reset
circuit which holds RESET/RESET active for a period of
time. This allows the power supply and system oscillator
to stabilize before the processor can execute code.
Low VCC detection circuitry protects the user’s system
from low voltage conditions, resetting the system when
VCC falls below the minimum VTRIP1 point. RESET/
RESET is active until VCC returns to proper operating
level and stabilizes. A second voltage monitor circuit
tracks the unregulated supply to provide a power fail
warning or monitors different power supply voltage.
Three common low voltage combinations are avail-
able, however, Xicor’s unique circuits allows the
BLOCK DIAGRAM
SDA
SCL
VCC
(V1MON)
V2MON
Data
Register
Command
Decode Test
& Control
Logic
Threshold
Reset Logic
Fault Detection
Register
Status
Register
Watchdog Timer
and
Reset Logic
User Programmable
VTRIP1
User Programmable
VTRIP2
+
-
V2MON
+ VCC
Power on,
Low Voltage
Reset
Generation
-
*X40010/11 = V2MON*
X40014/15 = VCC
WDO
RESET
X40010/14
RESET
X40011/15
V2FAIL
REV 1.3.4 7/12/02
www.xicor.com
Characteristics subject to change without notice. 1 of 25




X40015S8-B pdf, 반도체, 판매, 대치품
X40010/X40011/X40014/X40015 – Preliminary
Figure 2. VTRIPX Set/Reset Conditions
VTRIPX
(X = 1, 2)
VCC/V2MON
WDO
VP
SCL 0
70
70
7
SDA
A0h
00h tWC
WATCHDOG TIMER
The Watchdog Timer circuit monitors the microproces-
sor activity by monitoring the SDA and SCL pins. The
microprocessor must toggle the SDA pin HIGH to LOW
periodically, while SCL also toggles from HIGH to LOW
(this is a start bit) followed by a stop condition prior to
the expiration of the watchdog time out period to pre-
vent a WDO signal going active. The state of two non-
volatile control bits in the Status Register determines
the watchdog timer period. The microprocessor can
change these watchdog bits by writing to the X40010/
11/14/15 control register (also refer to page 19).
Figure 3. Watchdog Restart
.6µs
1.3µs
SCL
SDA
Timer Start
V1 AND V2 THRESHOLD PROGRAM PROCEDURE
(OPTIONAL)
The X40010/11/14/15is shipped with standard V1 and
V2 threshold (VTRIP1, VTRIP2) voltages. These values
will not change over normal operating and storage con-
ditions. However, in applications where the standard
thresholds are not exactly right, or if higher precision is
needed in the threshold value, the X40010/11/14/15trip
points may be adjusted. The procedure is described
below, and uses the application of a high voltage control
signal.
Setting a VTRIPx Voltage (x=1, 2)
There are two procedures used to set the threshold
voltages (VTRIPx), depending if the threshold voltage to
be stored is higher or lower than the present value. For
example, if the present VTRIPx is 2.9 V and the new
VTRIPx is 3.2 V, the new voltage can be stored directly
into the VTRIPx cell. If however, the new setting is to be
lower than the present setting, then it is necessary to
“reset” the VTRIPx voltage before setting the new value.
Setting a Higher VTRIPx Voltage (x=1, 2)
To set a VTRIPx threshold to a new voltage which is
higher than the present threshold, the user must apply
the desired VTRIPx threshold voltage to the corre-
sponding input pin Vcc(V1MON), or V2MON. The
Vcc(V1MON) and V2MON must be tied together during
this sequence. Then, a programming voltage (Vp) must
be applied to the WDO pin before a START condition is
set up on SDA. Next, issue on the SDA pin the Slave
Address A0h, followed by the Byte Address 01h for
VTRIP1 and 09h for VTRIP2, and a 00h Data Byte in
order to program VTRIPx. The STOP bit following a
valid write operation initiates the programming
sequence. Pin WDO must then be brought LOW to
complete the operation.
Note: This operation does not corrupt the memory
array.
REV 1.3.4 7/12/02
www.xicor.com
Characteristics subject to change without notice. 4 of 25

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X40015S8-B 전자부품, 판매, 대치품
X40010/X40011/X40014/X40015 – Preliminary
PUP1, PUP0: Power Up Bits (Nonvolatile)
The Power Up bits, PUP1 and PUP0, determine the
tPURST time delay. The nominal power up times are
shown in the following table.
PUP1
0
0
1
1
PUP0
0
1
0
1
Power on Reset Delay (tPURST)
50ms
200ms (factory setting)
400ms
800ms
WD1, WD0: Watchdog Timer Bits (Nonvolatile)
The bits WD1 and WD0 control the period of the
Watchdog Timer. The options are shown below.
WD1
0
0
1
1
WD0
0
1
0
1
Watchdog Time Out Period
1.4 seconds
200 milliseconds
25 milliseconds
disabled (factory setting)
Writing to the Control Registers
Changing any of the nonvolatile bits of the control and
trickle registers requires the following steps:
– Write a 02H to the Control Register to set the Write
Enable Latch (WEL). This is a volatile operation, so
there is no delay after the write. (Operation preceded
by a start and ended with a stop).
– Write a 06H to the Control Register to set the
Register Write Enable Latch (RWEL) and the WEL
bit. This is also a volatile cycle. The zeros in the data
byte are required. (Operation proceeded by a start
and ended with a stop).
– Write a one byte value to the Control Register that
has all the control bits set to the desired state. The
Control register can be represented as qxys 001r in
binary, where xy are the WD bits, s isthe BP bit and
qr are the power up bits. This operation proceeded
by a start and ended with a stop bit. Since this is a
nonvolatile write cycle it will take up to 10ms to
complete. The RWEL bit is reset by this cycle and the
sequence must be repeated to change the nonvola-
tile bits again. If bit 2 is set to ‘1’ in this third step
(qxys 011r) then the RWEL bit is set, but the WD1,
WD0, PUP1, PUP0, and BP bits remain unchanged.
Writing a second byte to the control register is not
allowed. Doing so aborts the write operation and
returns a NACK.
– A read operation occurring between any of the
previous operations will not interrupt the register
write operation.
– The RWEL bit cannot be reset without writing to the
nonvolatile control bits in the control register, power
cycling the device or attempting a write to a write
protected block.
To illustrate, a sequence of writes to the device consist-
ing of [02H, 06H, 02H] will reset all of the nonvolatile
bits in the Control Register to 0. A sequence of [02H,
06H, 06H] will leave the nonvolatile bits unchanged
and the RWEL bit remains set.
FAULT DETECTION REGISTER
The Fault Detection Register (FDR) provides the user
the status of what causes the system reset active. The
Manual Reset Fail, Watchdog Timer Fail and three Low
Voltage Fail bits are volatile.
7 6543
LV1F LV2F 0 WDF 0
2 10
0 00
The FDR is accessed with a special preamble in the
slave byte (1011) and is located at address 0FFh. It
can only be modified by performing a byte write
operation directly to the address of the register and
only one data byte is allowed for each register write
operation.
There is no need to set the WEL or RWEL in the
control register to access this fault detection register.
REV 1.3.4 7/12/02
www.xicor.com
Characteristics subject to change without notice. 7 of 25

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