General Description
The MAX6314 low-power CMOS microprocessor (µP)
supervisory circuit is designed to monitor power
supplies in µP and digital systems. The MAX6314’s
RESET output is bidirectional, allowing it to be directly
connected to µPs with bidirectional reset inputs, such
as the 68HC11. It provides excellent circuit reliability
and low cost by eliminating external components and
adjustments. The MAX6314 also provides a debounced
manual reset input.
This device performs a single function: it asserts a reset
signal whenever the VCC supply voltage falls below a
preset threshold or whenever manual reset is asserted.
Reset remains asserted for an internally programmed
interval (reset timeout period) after VCC has risen above
the reset threshold or manual reset is deasserted.
The MAX6314 comes with factory-trimmed reset
threshold voltages in 100mV increments from 2.5V
to 5V. Preset timeout periods of 1ms, 20ms, 140ms,
and 1120ms (minimum) are also available. The device
comes in a SOT143 package.
For a µP supervisor with an open-drain reset pin, see
the MAX6315 data sheet.
________________________Applications
Computers
Controllers
Intelligent Instruments
Critical µP and µC Power Monitoring
Portable/Battery-Powered Equipment
Features
♦Small SOT143 Package
♦RESET Output Simplifies Interface to
Bidirectional Reset I/Os
♦Precision Factory-Set VCC Reset Thresholds:
100mV Increments from 2.5V to 5V
♦±1.8% Reset Threshold Accuracy at TA= +25°C
♦±2.5% Reset Threshold Accuracy Over Temp.
♦Four Reset Timeout Periods Available:
1ms, 20ms, 140ms, or 1120ms (minimum)
♦Immune to Short VCC Transients
♦5µA Supply Current
♦Pin-Compatible with MAX811
MAX6314
68HC11/Bidirectional-Compatible
µP Reset Circuit
________________________________________________________________ Maxim Integrated Products 1
1
2
4
3
VCC
MRRESET
GND
MAX6314
SOT143
TOP VIEW
Pin Configuration
MAX6314
VCC
VCC
GND
RESET
µP
RESET
MR
LASER-
TRIMMED
RESISTORS
VCC
4.7kΩ
68HC11**
**OR OTHER µC/µP WITH BIDIRECTIONAL RESET I/O PIN.
RESET
CIRCUITRY
Typical Operating Circuit
19-1090; Rev 2; 12/05
Ordering Information continued at end of data sheet.
*P
For pricing, delivery, and ordering information, please contact Maxim/Dallas Direct! at
1-888-629-4642, or visit Maxim’s website at www.maxim-ic.com.
Ordering Information
PART†NOMINAL
VTH (V)
MIN tRP
(ms)
TOP
MARK††
MAX6314US50D1-T 5.00 1 AA_ _
MAX6314US49D1-T 4.90 1 AB_ _
MAX6314US48D1-T 4.80 1 AC_ _
MAX6314US47D1-T 4.70 1 AD_ _
MAX6314US46D1-T 4.63 1 AE_ _
MAX6314US45D1-T 4.50 1 AF_ _
†The MAX6314 is available in a SOT143 package, -40°C to
+85°C temperature range.
††The first two letters in the package top mark identify the part,
while the remaining two letters are the lot tracking code.
Devices are available in both leaded and lead-free packaging.
Specify lead-free by replacing “-T” with “+T” when ordering.
V
MAX6314
68HC11/Bidirectional-Compatible
µP Reset Circuit
2_______________________________________________________________________________________
ABSOLUTE MAXIMUM RATINGS
ELECTRICAL CHARACTERISTICS
(VCC = +2.5V to +5.5V, TA= -40°C to +85°C, unless otherwise noted. Typical values are at TA = +25°C.)
Stresses beyond those listed under “Absolute Maximum Ratings” may cause permanent damage to the device. These are stress ratings only, and functional
operation of the device at these or any other conditions beyond those indicated in the operational sections of the specifications is not implied. Exposure to
absolute maximum rating conditions for extended periods may affect device reliability.
Note 1: The MAX6314 monitors VCC through an internal, factory-trimmed voltage divider that programs the nominal reset threshold.
Factory-trimmed reset thresholds are available in 100mV increments from 2.5V to 5V (see Ordering and Marking Information).
Note 2: This is the minimum time RESET must be held low by an external pull-down source to set the active pull-up flip-flop.
Note 3: Measured from RESET VOL to (0.8 x VCC), RLOAD = ∞.
VCC ........................................................................-0.3V to +6.0V
All Other Pins..............................................-0.3V to (VCC + 0.3V)
Input Current (VCC).............................................................20mA
Output Current (RESET)......................................................20mA
Rate of Rise (VCC)...........................................................100V/µs
Continuous Power Dissipation (TA= +70°C)
SOT143 (derate 4mW/°C above +70°C).......................320mW
Operating Temperature Range ...........................-40°C to +85°C
Storage Temperature Range .............................-65°C to +160°C
Lead Temperature (soldering, 10sec) .............................+300°C
TA= +25°C
VCC = 5.5V, no load
TA= 0°C to +70°C
VTH > 4.0V
VCC = falling at 1mV/µs
MAX6314US_ _D1-T
VCC > 4.25V, ISINK = 3.2mA
CONDITIONS
V
0.4
VOL
RESET Output Voltage
kΩ32 63 100
MR Pullup Resistance
VTH - 1.8% VTH VTH + 1.8%
VTH
Reset Threshold (Note 1)
µA
512
ICC
V1.0 5.5VCC
Operating Voltage Range
VCC Supply Current
ns500
MR to Reset Delay
ns100
MR Glitch Rejection
µs1
MR Minimum Input Pulse
V
0.8VIL
MR Input Threshold
ppm/°C60∆VTH/°CReset Threshold Tempco
µs35VCC to Reset Delay
ms
1 1.4 2
tRP
Reset Timeout Period
UNITSMIN TYP MAXSYMBOLPARAMETER
VIL
VIH
VIH
VCC = 3.6V, no load
TA= -40°C to +85°C
VTH < 4.0V
MAX6314US_ _D3-T
MAX6314US_ _D2-T
MAX6314US_ _D4-T
VCC > 1.2V, ISINK = 0.5mA
VCC > 2.5V, ISINK = 1.2mA
VCC > 1.0V, ISINK = 80µA
410
VTH - 2.5% VTH + 2.5%
1120 1570 2240
140 200 280
20 28 40
0.3 x VCC
2.4
0.7 x VCC
0.3
0.3
0.3
V
ns400tS
Transition Flip-Flop Setup Time (Note 2)
VCC = 5V
VCC = 5V
mA20
RESET Active Pullup Current
V0.4 0.9Active Pullup Enable Threshold
VCC = 3V
ns
333
kΩ4.2 4.7 5.2
RESET Pullup Resistance
333
666
VCC = 5V 666
tR
RESET Output Rise Time
(Note 3)
CLOAD = 120pF
CLOAD = 250pF
CLOAD = 200pF
CLOAD = 400pF
MANUAL RESET INPUT
RESET INTERNAL PULLUP
MAX6314
68HC11/Bidirectional-Compatible
µP Reset Circuit
_______________________________________________________________________________________ 3
__________________________________________Typical Operating Characteristics
(TA = +25°C, unless otherwise noted.)
4.7kΩ PULL-UP
2V/div
MAX6314 PULL-UP
2V/div
INPUT
5V/div
200ns/div
PULLUP CHARACTERISTICS
MAX6314-01
100pF
4.7kΩ
+5V
74HC05
74HC05 VCC
GND
MR
100pF
+5V
RESET
MAX6314
6
0
-50 -30 30 90
SUPPLY CURRENT vs. TEMPERATURE
2
1
5
MAX6314-02
TEMPERATURE (°C)
SUPPLY CURRENT (µA)
-10 10 50
3
4
70
VCC = 5V
VCC = 3V
VCC = 1V
6
0
0135
SUPPLY CURRENT
vs. SUPPLY VOLTAGE
2
1
5
MAX6314-03
SUPPLY VOLTAGE (V)
SUPPLY CURRENT (µA)
2
3
4
4
TA = -40°C
TA = +25°C
TA = +85°C
50
0
-50 -30 10 90
POWER-DOWN RESET DELAY
vs. TEMPERATURE
10
40
MAX6314-04
TEMPERATURE (°C)
POWER-DOWN RESET DELAY (µs)
-10
20
30
30 50 70
VCC FALLING AT 1mV/µs
VTH = 4.63V
VTH = 3.00V
1.04
0.96
-50 -30 10 90
NORMALIZED RESET TIMEOUT PERIOD
vs. TEMPERATURE (VCC RISING)
0.97
0.98
1.02
1.00
1.03
MAX6314-05
TEMPERATURE (°C)
NORMALIZED RESET TIMEOUT PERIOD
-10
0.99
1.01
30 50 70
1.006
0.994
-50 -30 10 90
NORMALIZED RESET THRESHOLD
vs. TEMPERATURE (VCC FALLING)
0.996
0.998
1.004
1.000
MAX6314-06
TEMPERATURE (°C)
NORMALIZED RESET THRESHOLD
-10
1.002
30 50 70
100
0
10 100 1000
MAXIMUM TRANSIENT DURATION
vs. RESET COMPARATOR OVERDRIVE
20
MAX6314-07
RESET COMP. OVERDRIVE, VTH - VCC (mV)
MAXIMUM TRANSIENT DURATION (µs)
40
60
80
TA = +25°C
RESET OCCURS
ABOVE CURVE
VTH = 4.63V
VTH = 3.00V
600
0
-50 -30 10 90
RESET PULLUP TIME
vs. TEMPERATURE
100
200
500
300
MAX6314-08
TEMPERATURE (°C)
RESET PULL-UP-TIME (ns)
-10
400
30 50 70
CL = 390pF
CL = 100pF
Figure 1. Functional Diagram
MAX6314
68HC11/Bidirectional-Compatible
µP Reset Circuit
4_______________________________________________________________________________________
______________________________________________________________Pin Description
Supply Voltage and Reset Threshold Monitor InputVCC
4
Manual Reset Input. A logic low on MR asserts reset. Reset remains asserted as long as MR is low, and for
the reset timeout period (tRP) after the reset conditions are terminated. Connect to VCC if not used.
MR
3
PIN
Active-Low Complementary Output. In addition to the normal n-channel pulldown, RESET has a p-channel
pullup transistor in parallel with a 4.7kΩresistor to facilitate connection to µPs with bidirectional resets. See
the Reset Output section.
RESET
2
GroundGND1
FUNCTIONNAME
VCC
MAX6314
LASER-
TRIMMED
RESISTORS
VREF VCC
63kΩ
MR
RESET
GENERATOR
2µs ONE-SHOT
TRANSITION
FLIP-FLOP
RQ
S
FF
VCC
4.7kΩ
RESET
ACTIVE PULLUP
ENABLE COMPARATOR
0.5V
GND
MAX6314
68HC11/Bidirectional-Compatible
µP Reset Circuit
_______________________________________________________________________________________ 5
Detailed Description
The MAX6314 has a reset output consisting of a 4.7kΩ
pull-up resistor in parallel with a P-channel transistor
and an N-channel pull down (Figure 1), allowing this IC
to directly interface with microprocessors (µPs) that
have bidirectional reset pins (see the Reset Output
section).
Reset Output
A µP’s reset input starts the µP in a known state. The
MAX6314 asserts reset to prevent code-execution
errors during power-up, power-down, or brownout
conditions. RESET is guaranteed to be a logic low for
VCC > 1V (see the Electrical Characteristics table).
Once VCC exceeds the reset threshold, the internal
timer keeps reset asserted for the reset timeout period
(tRP); after this interval RESET goes high. If a brownout
condition occurs (monitored voltage dips below its pro-
grammed reset threshold), RESET goes low. Any time
VCC dips below the reset threshold, the internal timer
resets to zero and RESET goes low. The internal timer
starts when VCC returns above the reset threshold, and
RESET remains low for the reset timeout period.
The MAX6314’s RESET output is designed to interface
with µPs that have bidirectional reset pins, such as the
Motorola 68HC11. Like an open-drain output, the
MAX6314 allows the µP or other devices to pull RESET
low and assert a reset condition. However, unlike a
standard open-drain output, it includes the commonly
specified 4.7kΩpullup resistor with a P-channel active
pullup in parallel.
This configuration allows the MAX6314 to solve a prob-
lem associated with µPs that have bidirectional reset
pins in systems where several devices connect to
RESET. These µPs can often determine if a reset was
asserted by an external device (i.e., the supervisor IC)
or by the µP itself (due to a watchdog fault, clock error,
or other source), and then jump to a vector appropriate
for the source of the reset. However, if the µP does
assert reset, it does not retain the information, but must
determine the cause after the reset has occurred.
The following procedure describes how this is done
with the Motorola 68HC11. In all cases of reset, the µP
pulls RESET low for about four E-clock cycles. It then
releases RESET, waits for two E-clock cycles, then
checks RESET’s state. If RESET is still low, the µP con-
cludes that the source of the reset was external and,
when RESET eventually reaches the high state, jumps
to the normal reset vector. In this case, stored state
information is erased and processing begins from
scratch. If, on the other hand, RESET is high after the
two E-clock cycle delay, the processor knows that it
caused the reset itself and can jump to a different vec-
tor and use stored state information to determine what
caused the reset.
The problem occurs with faster µPs; two E-clock cycles
is only 500ns at 4MHz. When there are several devices
on the reset line, the input capacitance and stray
capacitance can prevent RESET from reaching the
logic-high state (0.8 x VCC) in the allowed time if only a
passive pullup resistor is used. In this case, all resets
will be interpreted as external. The µP is guaranteed to
sink only 1.6mA, so the rise time cannot be much
reduced by decreasing the recommended 4.7kΩ
pullup resistance.
The MAX6314 solves this problem by including a pullup
transistor in parallel with the recommended 4.7kΩresis-
tor (Figure 1). The pullup resistor holds the output high
until RESET is forced low by the µP reset I/O, or by the
MAX6314 itself. Once RESET goes below 0.5V, a com-
parator sets the transition edge flip-flop, indicating that
the next transition for RESET will be low to high. As
soon as RESET is released, the 4.7kΩresistor pulls
RESET up toward VCC. When RESET rises above 0.5V,
the active p-channel pullup turns on for the 2µs
duration of the one-shot. The parallel combination of the
4.7kΩpullup and the p-channel transistor on-
resistance quickly charges stray capacitance on the
reset line, allowing RESET to transition low to high with-
in the required two E-clock period, even with several
devices on the reset line (Figure 2). Once the one-shot
times out, the p-channel transistor turns off. This
process occurs regardless of whether the reset was
caused by VCC dipping below the reset threshold, MR
being asserted, or the µP or other device asserting
RESET. Because the MAX6314 includes the standard
4.7kΩpullup resistor, no external pullup resistor is
required. To minimize current consumption, the internal
pullup resistor is disconnected whenever the MAX6314
asserts RESET.
Manual Reset Input
Many µP-based products require manual reset capabil-
ity, allowing the operator, a test technician, or external
logic circuitry to initiate a reset. A logic low on MR
asserts reset. Reset remains asserted while MR is low,
and for the reset active timeout period after MR returns
high. To minimize current consumption, the internal
4.7kΩpullup resistor on RESET is disconnected
whenever RESET is asserted.
MAX6314
68HC11/Bidirectional-Compatible
µP Reset Circuit
6_______________________________________________________________________________________
MR has an internal 63kΩpullup resistor, so it can be
left open if not used. Connect a normally open momen-
tary switch from MR to GND to create a manual reset
function; external debounce circuitry is not required. If
MR is driven from long cables or if the device is used in
a noisy environment, connecting a 0.1µF capacitor from
MR to ground provides additional noise immunity.
__________Applications Information
Negative-Going VCC Transients
In addition to issuing a reset to the µP during power-up,
power-down, and brownout conditions, these devices
are relatively immune to short-duration negative-going
transients (glitches). The Typical Operating Character-
istics show the Maximum Transient Duration vs. Reset
Threshold Overdrive, for which reset pulses are not
generated. The graph was produced using negative-
going pulses, starting at VRST max and ending below
the programmed reset threshold by the magnitude
indicated (reset threshold overdrive). The graph shows
the maximum pulse width that a negative-going VCC
transient may typically have without causing a reset
pulse to be issued. As the amplitude of the transient
increases (i.e., goes farther below the reset threshold),
the maximum allowable pulse width decreases. A 0.1µF
bypass capacitor mounted close to VCC provides addi-
tional transient immunity.
Ensuring a Valid
RESET
Output
Down to VCC = 0V
When VCC falls below 1V, RESET no longer sinks
current—it becomes an open circuit. Therefore, high-
impedance CMOS-logic inputs connected to RESET
can drift to undetermined voltages. This presents no
problem in most applications, since most µP and other
circuitry is inoperative with VCC below 1V. However, in
applications where RESET must be valid down to
VCC = 0V, adding a pull-down resistor to RESET will
cause any stray leakage currents to flow to ground,
holding RESET low (Figure 3). R1’s value is not critical;
100kΩis large enough not to load RESET and small
enough to pull RESET to ground.
Figure 2. MAX6314 Supports Additional Devices on the Reset Bus
4.7kΩ
MR
CIN
RESET
RESET
CIRCUITRY
VCC
MAX6314
CSTRAY
68HC11
RESET
CIRCUITRY
CIN
RESET
VCC
OTHER DEVICES
CIN
RESET
Figure 3.
RESET
Valid to VCC = Ground Circuit
MAX6314
VCC
GND
RESET
R1
MAX6314
68HC11/Bidirectional-Compatible
µP Reset Circuit
_______________________________________________________________________________________ 7
Figure 4.
RESET
Timing Diagram
tR
tS
RESET
RESET PULLED LOW
BY µC OR
RESET GENERATOR
ACTIVE
PULL-UP
TURNS ON
VCC
0.5V
0.8 x VCC
tRP
OR
µC RESET DELAY
†The MAX6314 is available in a SOT143 package, -40°C to +85°C temperature range.
††The first two letters in the package top mark identify the part, while the remaining two letters are the lot tracking code.
†††Sample stocks generally held on the bolded products; also, the bolded products have 2,500 piece minimum-order quantities.
Non-bolded products have 10,000 piece minimum-order quantities. Contact factory for details.
Devices are available in both leaded and lead-free packaging. Specify lead-free by replacing “-T” with “+T” when ordering.
Note: All devices available in tape-and-reel only. Contact factory for availability.
___________________________________________Ordering Information (continued)
PART†
NOMINAL
VTH (V)
MIN tRP
(ms)
TOP
MARK††
MAX6314US44D1-T†††
4.39 1 AG_ _
MAX6314US43D1-T 4.30 1 AH_ _
MAX6314US42D1-T 4.20 1 AI_ _
MAX6314US41D1-T 4.10 1 AJ_ _
MAX6314US40D1-T 4.00 1 AK_ _
MAX6314US39D1-T 3.90 1 AL_ _
MAX6314US38D1-T 3.80 1 CA_ _
MAX6314US37D1-T 3.70 1 CB_ _
MAX6314US36D1-T 3.60 1 CC_ _
MAX6314US35D1-T 3.50 1 CD_ _
MAX6314US34D1-T 3.40 1 CE_ _
MAX6314US33D1-T 3.30 1 CF_ _
MAX6314US32D1-T 3.20 1 CG_ _
MAX6314US31D1-T 3.08 1 CH_ _
MAX6314US30D1-T 3.00 1 CI_ _
MAX6314US29D1-T 2.93 1 CJ_ _
MAX6314US28D1-T 2.80 1 CK_ _
MAX6314US27D1-T 2.70 1 CL_ _
MAX6314US26D1-T†††
2.63 1 CM_ _
PART†NOMINAL
VTH (V)
MIN tRP
(ms)
TOP
MARK††
MAX6314US25D1-T 2.50 1 CN_ _
MAX6314US50D2-T 5.00 20 CO_ _
MAX6314US49D2-T 4.90 20 CP_ _
MAX6314US48D2-T 4.80 20 CQ_ _
MAX6314US47D2-T 4.70 20 CR_ _
MAX6314US46D2-T 4.63 20 CS_ _
MAX6314US45D2-T 4.50 20 CT_ _
MAX6314US44D2-T††† 4.39 20 CU_ _
MAX6314US43D2-T 4.30 20 CV_ _
MAX6314US42D2-T 4.20 20 CW_ _
MAX6314US41D2-T 4.10 20 CX_ _
MAX6314US40D2-T 4.00 20 CY_ _
MAX6314US39D2-T 3.90 20 CZ_ _
MAX6314US38D2-T 3.80 20 DA_ _
MAX6314US37D2-T 3.70 20 DB_ _
MAX6314US36D2-T 3.60 20 DC_ _
MAX6314US35D2-T 3.50 20 DD_ _
MAX6314US34D2-T 3.40 20 DE_ _
MAX6314US33D2-T 3.30 20 DJ_ _
MAX6314
68HC11/Bidirectional-Compatible
µP Reset Circuit
Maxim cannot assume responsibility for use of any circuitry other than circuitry entirely embodied in a Maxim product. No circuit patent licenses are
implied. Maxim reserves the right to change the circuitry and specifications without notice at any time.
8_____________________Maxim Integrated Products, 120 San Gabriel Drive, Sunnyvale, CA 94086 408-737-7600
©2005 Maxim Integrated Products Printed USA is a registered trademark of Maxim Integrated Products, Inc.
_____________________________Ordering and Marking Information (continued)
†The MAX6314 is available in a SOT143 package, -40°C to +85°C temperature range.
††The first two letters in the package top mark identify the part, while the remaining two letters are the lot tracking code.
†††Sample stocks generally held on the bolded products; also, the bolded products have 2,500 piece minimum-order quantities.
Non-bolded products have 10,000 piece minimum-order quantities. Contact factory for details.
Devices are available in both leaded and lead-free packaging. Specify lead-free by replacing “-T” with “+T” when ordering.
Note: All devices available in tape-and-reel only. Contact factory for availability.
Chip Information
TRANSISTOR COUNT: 519
PART†
NOMINAL
VTH (V)
MIN tRP
(ms)
TOP
MARK††
MAX6314US32D2-T 3.20 20
DK_ _
MAX6314US31D2-T 3.08 20 DL_ _
MAX6314US30D2-T 3.00 20
DM_ _
MAX6314US29D2-T 2.93 20
DN_ _
MAX6314US28D2-T 2.80 20
DO_ _
MAX6314US27D2-T 2.70 20
DP_ _
MAX6314US26D2-T†††
2.63 20
DQ_ _
MAX6314US25D2-T 2.50 20
DR_ _
MAX6314US50D3-T 5.00 140
DS_ _
MAX6314US49D3-T 4.90 140 DT_ _
MAX6314US48D3-T 4.80 140
DU_ _
MAX6314US47D3-T 4.70 140
DV_ _
MAX6314US46D3-T†††
4.63 140
DW_ _
MAX6314US45D3-T 4.50 140
DX_ _
MAX6314US44D3-T†††
4.39 140
DY_ _
MAX6314US43D3-T 4.30 140
DZ_ _
MAX6314US42D3-T 4.20 140 EA_ _
MAX6314US41D3-T 4.10 140 EB_ _
MAX6314US40D3-T 4.00 140
EC_ _
MAX6314US39D3-T 3.90 140
EG_ _
MAX6314US38D3-T 3.80 140
EH_ _
MAX6314US37D3-T 3.70 140 EI_ _
MAX6314US36D3-T 3.60 140 EJ_ _
MAX6314US35D3-T 3.50 140 EK_ _
MAX6314US34D3-T 3.40 140 EL_ _
MAX6314US33D3-T 3.30 140
EM_ _
MAX6314US32D3-T 3.20 140
EN_ _
MAX6314US31D3-T†††
3.08 140
EO_ _
MAX6314US30D3-T 3.00 140 EP_ _
MAX6314US29D3-T†††
2.93 140 ES_ _
PART†NOMINAL
VTH (V)
MIN tRP
(ms)
TOP
MARK††
MAX6314US28D3-T 2.80 140 ET_ _
MAX6314US27D3-T 2.70 140 EU_ _
MAX6314US26D3-T††† 2.63 140 EV_ _
MAX6314US25D3-T 2.50 140 EW_ _
MAX6314US50D4-T 5.00 1120 EX_ _
MAX6314US49D4-T 4.90 1120 EY_ _
MAX6314US48D4-T 4.80 1120 EZ_ _
MAX6314US47D4-T 4.70 1120 FA_ _
MAX6314US46D4-T 4.63 1120 FB_ _
MAX6314US45D4-T 4.50 1120 FC_ _
MAX6314US44D4-T††† 4.39 1120 FD_ _
MAX6314US43D4-T 4.30 1120 FE_ _
MAX6314US42D4-T 4.20 1120 FF_ _
MAX6314US41D4-T 4.10 1120 FG_ _
MAX6314US40D4-T 4.00 1120 FH_ _
MAX6314US39D4-T 3.90 1120 FI_ _
MAX6314US38D4-T 3.80 1120 FJ_ _
MAX6314US37D4-T 3.70 1120 FK_ _
MAX6314US36D4-T 3.60 1120 FL_ _
MAX6314US35D4-T 3.50 1120 FM_ _
MAX6314US34D4-T 3.40 1120 FN_ _
MAX6314US33D4-T 3.30 1120 FO_ _
MAX6314US32D4-T 3.20 1120 FP_ _
MAX6314US31D4-T 3.08 1120 FQ_ _
MAX6314US30D4-T 3.00 1120 FR_ _
MAX6314US29D4-T 2.93 1120 FS_ _
MAX6314US28D4-T 2.80 1120 FT_ _
MAX6314US27D4-T 2.70 1120 FU_ _
MAX6314US26D4-T††† 2.63 1120 FV_ _
MAX6314US25D4-T 2.50 1120 FW_ _
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Maxim Integrated:
MAX6314US46D3+T MAX6314US29D3+T MAX6314US25D1+T MAX6314US25D2+T MAX6314US25D3+T
MAX6314US25D4+T MAX6314US26D1+T MAX6314US26D2+T MAX6314US26D3+T MAX6314US26D4+T
MAX6314US27D1+T MAX6314US27D2+T MAX6314US27D3+T MAX6314US27D4+T MAX6314US28D1+T
MAX6314US28D2+T MAX6314US28D3+T MAX6314US28D4+T MAX6314US29D1+T MAX6314US29D2+T
MAX6314US29D4+T MAX6314US30D1+T MAX6314US30D2+T MAX6314US30D3+T MAX6314US30D4+T
MAX6314US31D1+T MAX6314US31D2+T MAX6314US31D3+T MAX6314US31D4+T MAX6314US32D1+T
MAX6314US32D2+T MAX6314US32D3+T MAX6314US32D4+T MAX6314US33D1+T MAX6314US33D2+T
MAX6314US33D3+T MAX6314US33D4+T MAX6314US34D1+T MAX6314US34D2+T MAX6314US34D3+T
MAX6314US34D4+T MAX6314US35D1+T MAX6314US35D2+T MAX6314US35D3+T MAX6314US35D4+T
MAX6314US36D1+T MAX6314US36D2+T MAX6314US36D3+T MAX6314US36D4+T MAX6314US37D1+T
MAX6314US37D2+T MAX6314US37D3+T MAX6314US37D4+T MAX6314US38D1+T MAX6314US38D2+T
MAX6314US38D3+T MAX6314US38D4+T MAX6314US39D1+T MAX6314US39D2+T MAX6314US39D3+T
MAX6314US39D4+T MAX6314US40D1+T MAX6314US40D2+T MAX6314US40D3+T MAX6314US40D4+T
MAX6314US41D1+T MAX6314US41D2+T MAX6314US41D3+T MAX6314US41D4+T MAX6314US42D1+T
MAX6314US42D2+T MAX6314US42D3+T MAX6314US42D4+T MAX6314US43D1+T MAX6314US43D2+T
MAX6314US43D3+T MAX6314US43D4+T MAX6314US44D1+T MAX6314US44D2+T MAX6314US44D3+T
MAX6314US44D4+T MAX6314US45D1+T MAX6314US45D2+T MAX6314US45D3+T MAX6314US45D4+T
MAX6314US46D1+T MAX6314US46D2+T MAX6314US46D4+T MAX6314US47D1+T MAX6314US47D2+T
MAX6314US47D3+T MAX6314US47D4+T MAX6314US48D1+T MAX6314US48D2+T MAX6314US48D3+T
MAX6314US48D4+T MAX6314US49D1+T MAX6314US49D2+T MAX6314US49D3+T MAX6314US49D4+T
