MCP1631RD-MCC2 Microchip Technology, MCP1631RD-MCC2 Datasheet - Page 6

REFERENCE DESIGN MCP1631HV

MCP1631RD-MCC2

Manufacturer Part Number
MCP1631RD-MCC2
Description
REFERENCE DESIGN MCP1631HV
Manufacturer
Microchip Technology
Datasheets
1.MCP1631VHVT-330EST.pdf (34 pages)
2.MCP1631HV-330EST.pdf (54 pages)
3.MCP1631RD-MCC2.pdf (20 pages)
4.MCP1631RD-MCC2.pdf (328 pages)

Specifications of MCP1631RD-MCC2

Main Purpose
Power Management, Battery Charger
Embedded
Yes, MCU, 8-Bit
Utilized Ic / Part
MCP1631HV, PIC16F883
Primary Attributes
1 ~ 2 Cell- Li-Ion, 1 ~ 5 Cell- NiCd/NiMH, 1 ~ 2 1W LEDs
Secondary Attributes
Status LEDs
Silicon Manufacturer
Microchip
Application Sub Type
Battery Charger
Kit Application Type
Power Management - Battery
Silicon Core Number
MCP1631HV, PIC16F883
Kit Contents
Board
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
Lead Free Status / RoHS Status
Lead free / RoHS Compliant
MCP1631/HV/MCP1631V/VHV
DC CHARACTERISTICS (CONTINUED)
DS22063B-page 6
Electrical Specifications: Unless otherwise noted, V
V
External Reference Input
Reference Voltage Input
Internal Driver)
R
R
V
V
Error Amplifier (A1)
Input Offset Voltage
A1 Input Bias Current
Error Amplifier PSRR
Common Mode Input Range
Common Mode Rejection Ratio
Open-loop Voltage Gain
Low-level Output
Gain Bandwidth Product
Error Amplifier Sink Current
Error Amplifier Source Current
Current Sense (CS) Amplifier (A2)
Input Offset Voltage
CS Input Bias Current
CS Amplifier PSRR
Closed-loop Voltage Gain
Low-level Output
CS Sink Current
CS Amplifier Source Current
Voltage Sense (VS) Amplifier (A3)
Input Offset Voltage
VS Input Bias Current
Note 1:
DD
EXT
EXT
DSON
DSON
for typical values = 5.0V, T
Rise Time
Fall Time
2:
3:
4:
5:
P-channel
N-channel
Parameters
External Oscillator Input (OSC
characterization testing. Signal levels between 0.8V and 2.0V with rise and fall times measured between 10% and 90%
of maximum and minimum values. Not production tested. Additional timing specifications were fully characterized and
specified that are not production tested.
The minimum V
TCV
temperature range. V
Load regulation is measured at a constant junction temperature using low duty cycle pulse testing. Changes in output
voltage due to heating effects are determined using thermal regulation specification TCV
Dropout voltage is defined as the input to output differential at which the output voltage drops 2% below its measured
value with an applied input voltage of V
OUT
= (V
OUT-HIGH
IN
must meet two conditions: V
A
for typical values = +25°C, T
OUT-LOW
- V
R
R
I
I
OUT-LOW
GBWP
SOURCE
SOURCE
PSRR
PSRR
A2
T
T
V
DSon_N
Sym
DSon_P
A
I
I
I
I
I
V
V
V
V
V
V
BIAS
SINK
BIAS
SINK
BIAS
RISE
FALL
REF
VOL
OS
CM
OS
OS
OL
VCL
OL
IN
= lowest voltage measured over the temperature range.
) rise and fall times between 10 ns and 10 µs were determined during device
) *10
GND - 0.3
6
OUT(MAX)
/ (V
IN
Min
-3.0
80
-5
-2
-5
-5
0
4
5
5
= 3.0V to 5.5V, F
R
* ΔTemperature), V
IN
+ V
A
≥ 3.5V and V
= -40°C to +125°C for all minimum and maximums.
DROPOUT(MAX)
0.001
-19.5
0.05
85.4
0.13
17.7
-9.8
Typ
-0.6
7.2
3.8
2.5
2.7
3.5
1.2
0.9
90
65
95
25
12
10
11
OSC
IN
GND + 65
GND + 50
≥ (V
OUT-HIGH
= 1 MHz with 10% Duty Cycle, C
AV
Max
+3.0
V
or 3.5V, whichever is greater.
15
15
18
18
+5
+5
1
1
1
IN
DD
OUT(MAX)
= highest voltage measured over the
Units
MHz
V/V
mV
mV
mA
mA
mV
mV
mA
mA
mV
µA
dB
dB
dB
µA
dB
µA
ns
ns
Ω
Ω
V
V
+ V
DROPOUT(MAX)
V
V
V
The reference input is capable of
rail-to-rail operation.
C
Typical for V
C
Typical for V
V
R
100 mV < V
V
RL = 5 kΩ to V
V
V
V
V
Absolute Value
GAIN = 10
R
100 mV < V
V
RL = 5 kΩ to V
© 2008 Microchip Technology Inc.
IN
IN
CM
IN
IN
FB
IN
FB
IN
CM
L
L
L
L
= 100 pF
= 100 pF
= 5 kΩ to V
= 5 kΩ to V
OUT
= 3.0V to 5.0V, V
= 5V, V
= 5V
= 5V, V
= 5V, V
= 3.0V to 5.0V, V
= 1.4V, V
= 1.0V, V
= 1.2V
= +0.12V
.
Conditions
CM
REF
REF
EAOUT
).
OUT
IN
IN
IN
COMP
COMP
= 0V to 2.5V
IN
IN
= 5V (Note 1)
= 5V (Note 1)
IN
IN
= 1.2V,
= 1.2V,
= 0.1 µF,
/2,
/2,
< V
/2
/2
< V
= 2.0V
= 2.0V,
IN
CM
CM
IN
- 100 mV,
- 100 mV,
= 1.2V
= 0.12V,

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