MCP6295-E/SN Microchip Technology, MCP6295-E/SN Datasheet - Page 13
MCP6295-E/SN
Manufacturer Part Number
MCP6295-E/SN
Description
IC,Operational Amplifier,DUAL,CMOS,SOP,8PIN,PLASTIC
Manufacturer
Microchip Technology
Specifications of MCP6295-E/SN
Amplifier Type
General Purpose
Number Of Circuits
2
Output Type
Rail-to-Rail
Slew Rate
7 V/µs
Gain Bandwidth Product
10MHz
Current - Input Bias
1pA
Voltage - Input Offset
3000µV
Current - Supply
1mA
Current - Output / Channel
25mA
Voltage - Supply, Single/dual (±)
2.4 V ~ 6 V
Operating Temperature
-40°C ~ 125°C
Mounting Type
Surface Mount
Package / Case
8-SOIC (3.9mm Width)
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
-3db Bandwidth
-
Lead Free Status / RoHS Status
Lead free / RoHS Compliant, Contains lead / RoHS non-compliant
Available stocks
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Manufacturer
Quantity
Price
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Part Number:
MCP6295-E/SN
Manufacturer:
MICROCHIP
Quantity:
12 000
MCP1630DM-DDBK1: MCP1630 1A Bias Supply Demo
Board
The MCP1630 1A Bias Supply Demo Board is used to
evaluate Microchip’s MCP1630 used in a SEPIC power
converter application. The MCP1630 1A Bias Supply
Demo Board is capable of providing a regulated output
from an input voltage of 9V. The regulated output voltage
is selectable at 3.3V or 5V. The regulated output remains
constant for an output load range of 0A to 1A. An LED
indicates the presence of output voltage.
MCP1630DM-NMC1: MCP1630 NiMH Battery Charger
Demonstration Board
The MCP1630 High Speed PWM is interfaced to the
PIC16LF818 to develop a complete NiMH battery charger
with fuel gauge capability. The MCP1630 is used to
regulate the battery charge current and protect the SEPIC
power train against an open circuit (removed battery) or a
shorted battery. The high speed (12ns current sense to
output) capability of the MCP1630 is used to switch the
SEPIC converter at 1 MHz, minimizing external inductor and
capacitor cost, while the PIC16LF818 performs the complex
NiMH battery charger timing functions. Both the MCP1630
and PICLF818 protect the battery and circuit in the event of
a fault.
MCP1630RD-DDBK3: MCP1630V Bidirectional 4 Cell Li-Ion
Charger Reference Design
As high power portable applications continue to gain in
popularity, more innovative techniques are needed to charge
the batteries while also providing a low regulated voltage to
the system’s high end digital electronics. For example, laptop
computers, portable test equipment, portable printers, etc.,
all require more power than a single or two cell Li-Ion battery
pack can efficiently store. As a result, three or four series
Li-Ion cell packs are used to store the necessary that power
these high end applications. The result is a high DC voltage
used to store the energy requiring a difficult high voltage to
low voltage dc-dc conversion. The MCP1630V bi-directional
4 Cell Li-Ion Charger Reference Design can be used to
evaluate a design that boosts a low source voltage to charge
four Li-Ion series cells while providing energy to the system
simultaneously. When the source is removed, the same
power train used to charge the battery pack provides a low
regulated voltage to operate the system.
Related Support Material
MCP1630RD-LIC1: MCP1630 Li-Ion Multi Bay Battery
Charger Reference Design
The MCP1630 Multi-Bay Li-Ion Charger is used to evaluate
Microchip’s MCP1630 used in a SEPIC power converter
application. The MCP1630 Multi-Bay Li-Ion Charger is capable
of charging two single-cell, Li-Ion battery packs in parallel
utilizing an input voltage of 10V to 30V (battery packs are
not included). Multiple boards can be daisy-chained for
additional charger bays. The MCP1630 Multi-Bay Li-Ion
Charger is intended for use in pseudo-smart battery charger
applications utilizing battery packs containing Microchip’s
PS700 Battery Monitor. Standard battery packs can be
utilized as well. The MCP1630 Multi-Bay Li-Ion Charger
provides a constant current – constant voltage charge with
preconditioning, cell temperature monitoring and battery
pack fault monitoring. Each charger bay provides a status
and fault indication. The MCP1630 Multi-Bay Li-Ion Charger
automatically detects the insertion or removal of a battery
pack.
MCP1630RD-LIC2: MCP1630 Low-Cost Li-Ion Battery
Charger Reference Design
The MCP1630 Low-Cost Li-Ion Battery Charger is used
to evaluate Microchip’s MCP1630 in a SEPIC power
converter application. As provided, the MCP1630
Low-Cost Li-Ion Battery Charger is capable of charging a
single-cell, Li-Ion battery pack from an input voltage of 6V
to 18V. The MCP1630 Low-Cost Li-Ion Battery Charger
provides a constant current, constant voltage charge with
preconditioning, cell temperature monitoring and battery pack
fault monitoring. Also, the charger provides a status or fault
indication. The MCP1630 Low-Cost Li-Ion Battery Charger
automatically detects the insertion or removal of a battery
pack.
MCP73113EV-1SOVP: MCP73113 OVP Single Cell Li-Ion
Battery Charger Evaluation Board
The MCP73113 OVP Single-Cell Li-Ion Battery Charger
Evaluation Board demonstrates the features of Microchip’s
MCP73113 “Single-Cell Li-Ion/Li-Polymer Battery Charge
Management Controller with Input Overvoltage Protection”.
The MCP73113 OVP Single-Cell Li-Ion Battery Charger
Evaluation Board is designed with two charging currents.
The default value is 500 mA and when PROG via is tied to
ground, the two parallel resistors output 1000 mA charging
current to a Li-Ion battery. One blue LED status output allows
the user to learn if the MCP73113 is in charging state or
not. The MCP73113 OVP Single-Cell Li-Ion Battery Charger
Evaluation Board comes with an installed MCP73113 device
in 3mm x 3mm DFN package. The factory preset battery
regulation voltage is 4.20V with precondition, termination
and auto recharge features.
The MCP73113 OVP Single-Cell Li-Ion Battery Charger
Evaluation Board is designed to observe the performance
and features on the circuits via multiple test points. Circuits
can also be implemented into suitable applications without
additional work.
Battery Power Applications Design Guide
13
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