MBR10 [ONSEMI]
High Efficiency DC-DC Converters; 高效DC -DC转换器型号: | MBR10 |
厂家: | ONSEMI |
描述: | High Efficiency DC-DC Converters |
文件: | 总20页 (文件大小:1951K) |
中文: | 中文翻译 | 下载: | 下载PDF数据表文档文件 |
Low Profile, Small Footprint Packaging
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We enable the design and production of ultra-thin end-user products for the
consumer market, by manufacturing some of the lowest profile packaging
available in the world, in vast volumes. Whether you are designing mobile
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All of our packages are available with Pb-free leads to ensure compliance with
RoHS standards.
SOD–723
SOT−553, 5 LEAD
1.00 mm
1.40 mm
1.60 mm
0.55 mm
0.20 mm
0.52 mm
0.60 mm
5
4
3
1.20 mm
1.60 mm
0.28 mm 2X
0.20 mm
0.12 mm
1
2
0.08 (0.0032)
X Y
0.13 mm
0.20 mm 5 PL
0.50 mm
BSC
0.08 (0.003)
X Y
SOD–923
SOT−953
0.80 mm
0.45 mm
0.10 mm
1.00 mm
1.00 mm
0.40 mm
0.10 mm
5
4
0.60 mm
1.00 mm
0.80 mm
0.20 mm 2X
1
2
3
0.12 mm
0.08 (0.0032)
X Y
0.15 mm 5X
0.08
0.10 mm
0.35 mm
BSC
X
Y
NOT TO SCALE
Page ꢀ
Portable Solutions
A Multitude of Solutions for Today’s Portable Electronics
ON Semiconductor
Page ꢁ
High Efficiency DC-DC Converters
1
2
3
4
SHD
SYN
CB0
CB1
GND
8
7
6
5
V
O
L
LX
V
IN
15 MH
OUT
10 MF
V
IN
C
C
MBRM120
IN
10 MF
Typical Buck Converter
L
VOUT
VIN
CIN
1
2
3
5
4
LX
FB
VIN
COUT
100
90
GND
R1
Cff
OFF ON
EN
R2
80
70
60
50
Typical Step-Down Converter
V
= 3.3 V
= 4.2 V
= 25oC
out
Key Features
V
T
in
• PWM buck converter operates either as an LDO or in PFM mode when output current
decreases (NCP1500/01/19/ꢀ1/ꢀꢀ/ꢀꢁ/ꢀ9), maximizing efficiency at both light and
full loads
A
0
100
200
300
(mA)
400
500
600
I
out
• High switching frequencies allow use of smaller output filters, capacitors, and inductors,
while maintaining high efficiency
NCP1521 - Efficiency vs Output Current
Buck Converters
Input
Voltage
Max
Current
Typical
Efficiency
Device
Package(s)
Topology
Frequency
Output Voltage
Features
External Sync
ꢀ70-6ꢁ0 kHz
NCP1500
Micro8™
PWM/Linear
ꢀ.7 - 5.ꢂ V
1.0 - 1.8 V Selectable
ꢁ00 mA
91%
Turns into LDO Mode when Sync is Absent
External Sync
ꢂ50-1000 kHz
Sync Rec, Turns into LDO Mode when Sync is
Absent
NCP1501
Micro8
PWM/Linear
ꢀ.5 - 5.ꢀ V
ꢀ.7 - 5.ꢀ V
ꢀ.7 - 5.5 V
ꢀ.7 - 5.5 V
ꢀ.7 - 5.5 V
ꢀ.7 - 5.5 V
ꢀ.7 - 5.5 V
ꢀ.7 - 5.5 V
ꢀ.7 - 5.5 V
ꢀ.5 - 6.0 V
1.0 - 1.8 V Selectable
1.0 - 1.8 V Selectable
ꢁ00 mA
ꢁ00 mA
ꢂ00 mA
600 mA
600 mA
600 mA
9ꢀ%
95%
96%
96%
9ꢁ%
9ꢁ%
95%
96%
9ꢀ%
90%
1 MHz or External Sync
ꢂ50-1000 kHz
Sync Rec, Turns into Pulse Mode to Save Power
when Sync Pin is Low
NCP1510A MicroBump-9 PWM/Pulse
Adj 0.9 - ꢁ.ꢁ V by External
Resistors, 1.ꢀ, 1.5, 1.8 V
NCP1519* Thin SOT-ꢀꢁ-5
PWM/PFM
PWM/PFM
PWM/PFM
PWM/PFM
1.7 Mhz
1.5 Mhz
ꢁ MHz
Sync Rec, Ultra-Low 60 mA I at Light Loads
q
Thin SOT-ꢀꢁ-5,
NCP15ꢀ1
Adjustable 0.9 - ꢁ.ꢁ V
by External Resistors
Sync Rec, Ultra-Low ꢁ0 mA I at Light Loads
q
Thin DFN-6
Adjustable 0.9 - ꢁ.ꢁ V
by External Resistors
NCP15ꢀꢀ
NCP15ꢀꢁ* MicroBump-8
NCP15ꢀ6 Thin DFN-10
NCP15ꢀ9* Thin SOT-ꢀꢁ-5
Thin SOT-ꢀꢁ-5
Sync Rec, Ultra-Low 60 mA I at Light Loads
q
Adjustable 0.9 - ꢁ.ꢁ V
by External Resistors
ꢁ MHz
Sync Rec, Ultra-Low 60 mA I at Light Loads
q
Dual Output
PWM + LDO
PWM 1.ꢀ V; LDO ꢀ.8 V
Other Options Available
PWM ꢂ00 mA
LDO 150 mA
ꢁ MHz
Sync Rec, Ultra-Thin DFN: 0.55 mm Thickness
Adj 0.9 - ꢁ.ꢁ V by External
Resistors, 1.ꢀ, 1.5, 1.8 V
PWM/PFM
PWM/PFM
PWM/PFM
1.7 Mhz
1 A
Sync Rec, Ultra-Low 60 mA I at Light Loads
q
600 kHz or External Sync
Up to 1ꢀ00 kHz
NCP15ꢁ0
Micro8
ꢀ.5 - 5.0 V
1.8 - ꢁ.ꢁ V
600 mA
Programmable Soft-Start
Enable Pin
ꢀ000 mA
(Ext Switch)
NCP1550
SOT-ꢀꢁ-5
600 kHz
* Planned ꢀH06
Page ꢂ
Portable Solutions
High Efficiency DC-DC Converters
Feature
NCP1410
1.5 ~ 5.5 V
1.0 ~ 5.5 V
600 kHz
Competitor
ꢀ.0 ~ 5.5 V
1.1 ~ 5.5 V
500 kHz
L1
D1
Output Voltage Range
V
in
V
out
Operation Startup Voltage
Max Switching Frequency
Inductor
22 MH
CE
1
LX
5
C1
10 MF
C2
68 MF
15 to ꢀꢀ mH
ꢁꢂ mA Typ
9ꢀ% Typ
ꢀꢀ mH
OUT
2
Output Ripple Voltage
Efficiency
Not Specified
91% Typ
NC
3
GND
4
Operating Current @ I = 0
OUT
9 mA Typ
16 mA Typ
0.1 mA Typ
1.ꢁ V ꢀ.0%
Shutdown Current
0.05 mA Typ
1.19 V 0.6%
Key Features
• High switching frequency allows use of
Reference Voltage Accuracy
Typical Boost Converter
small inductors and capacitors
Boost Converters
Device
Package(s)
SOT-ꢀꢁ-5
SOT-ꢀꢁ-5
SOT-ꢀꢁ-6
SOT-ꢀꢁ-5
Micro8™
Micro8
Topology
PWM
PFM
Frequency
180 kHz
180 kHz
ꢁ00 kHz
1000 kHz
600 kHz
1ꢀ00 kHz
1.ꢀ MHz
Input Voltage
0.8 - 5.5 V
0.8 - 5.5 V
1.ꢀ - 5.5 V
1.ꢀ - 5.5 V
1.0 - 5.5 V
1.0 - 5.0 V
1.0 - 5.0 V
Output Voltage
Max Current
Typ Efficiency
88%
Features
NCP1ꢂ00A
NCP1ꢂ0ꢀ
NCP1ꢂ0ꢁ
NCP1ꢂ06
NCP1ꢂ10
NCP1ꢂꢀ1
NCP1ꢂꢀꢀ
1.8 - 5.0 V
1.8 - 5.0 V
Up to 15 V
Up to ꢀ5 V
1.5 - 5.5 V
1.5 - 5.0 V
1.0 - 5.0 V
100 mA
ꢀ00 mA
50 mA
Enable Pin
Enable Pin
Enable Pin
Enable Pin
85%
PFM
8ꢀ%
PFM
50 mA
85%
PFM
ꢀ50 mA
600 mA
800 mA
9ꢀ%
Sync Rec, Low Battery Detection
PFM
9ꢂ%
9ꢂ%
True Cutoff, Ring-Killer, Low Battery Detection
Sync Rec, True Cutoff, Low Battery Detection
DFN-10
PFM
Sync Rec, True Cutoff, Low Battery Detection,
Low Startup Voltage (0.8 V)
NCP1ꢂꢀꢁ
Micro10
PFM
600 kHz
180 kHz
0.8 - ꢁ.ꢁ V
0.8 - 5.5 V
1.8 - ꢁ.ꢁ V
1.8 - 5.0 V
ꢂ00 mA
9ꢀ%
88%
1000 mA
(Ext Switch)
NCP1ꢂ50A
SOT-ꢀꢁ-5
PWM
Enable Pin
Optimize Figure-of-Merit with MOSFETs for DC-DC Conversion
mCool™ MOSFETs
Complete mCool™ Portfolio
• N-Channel & P-Channel
• Single, Dual, Complementary and
FETKY®
Device
B
Polarity Configuration
R
*
DS(ON)
Package
VDSS
NTJDꢂ116N
NTLJFꢂ156N
NTLJFꢁ117P
NTLJDꢁ119C
ꢁ0 V
ꢁ0 V
ꢀ0 V
ꢀ0 V
N
N
Dual
FETKY
FETKY
<70 m
<70 m
W
WDFN, ꢀ x ꢀ mm
WDFN, ꢀ x ꢀ mm
WDFN, ꢀ x ꢀ mm
WDFN, ꢀ x ꢀ mm
SYNCHRONOUS BOOST
W
P
<100 mW
• 8 V, ꢀ0 V, ꢁ0 V
N/P
Complementary <70/100 mW
ASYNCHRONOUS BOOST
Key Performance Characteristics
Other New MOSFETs
• Low R
and Gate Charge Deliver
ds(on)
Low Figure-of-Merit Ratio
Device
B
Polarity Configuration
R
*
DS(ON)
Package
VDSS
(<110 for Single N-Channel)
• Package Thermal Resistance of
ꢁ8°C/W
NTHDꢁ10ꢀC
NTGSꢁꢂꢂ1P
NTGDꢁ1ꢀꢀC
NTGFꢁ1ꢀꢁF
NTJSꢂ160N
ꢀ0 V
ꢀ0 V
ꢀ0 V
ꢀ0 V
ꢁ0 V
N/P
P
Complementary <ꢂ5/85 m
Single <110 m
Complementary <80/1ꢂ5 m
W
ChipFET™, ꢀ x ꢁ mm
TSOP-6, ꢁ x ꢁ mm
TSOP-6, ꢁ x ꢁ mm
TSOP-6, ꢁ x ꢁ mm
SC-88, ꢀ x ꢀ mm
W
SYNCHRONOUS BUCK
ASYNCHRONOUS BUCK
N/P
P
W
• Package Footprints as Small as
ꢂ mmꢀ
FETKY
Single
<80 m
<85 m
W
W
N
• Low Profile <0.75 mm
* R
ꢂ.5 V
gs
DS(ON)
ON Semiconductor
Page 5
Smaller, Thinner, Faster, Cooler & Safer Load Switch Elements
Thermal Image of mCool™ NTLJS3113P
(Power FET)
Thermal Resistance Comparison of Different Packages
Minimum Pad, I
= ꢂ A, Steady State
(load)
Test Conditions: FRꢂ, 1-in-ꢀ, 1 oz Cu, Dual Die
Power MOSFETs
Device
BVDSS
ꢀ0 V
ꢀ0 V
ꢁ0 V
ꢁ0 V
ꢀ0 V
ꢀ0 V
Polarity
Configuration
Single
RDS(ON) 4.5 Vgs
< 16 mW
< ꢁ0 mW
< ꢁ5 mW
< 70 mW
< 150 mW
< ꢂ W
Package
Micro-8 LL
ChipFET
WDFN
Dimensions
ꢁ.ꢁ x ꢁ.ꢁ mm
ꢁ x ꢀ mm
NTLTSꢁ107P
NTHS5ꢂ0ꢂ
NTLJSꢂ159N
NTLJDꢂ11ꢂN
NTZDꢁ151P
NTKꢁ1ꢂꢀP
P
N
N
N
P
High Load Current >ꢂ A
Single
Single
ꢀ x ꢀ mm
Dual
WDFN
ꢁ.ꢁ x ꢁ.ꢁ mm
1.6 x 1.6 mm
1.ꢀ x 1.ꢀ mm
Low to Medium Load Current <ꢂ A
Single
SOT-56ꢁ
SOT-7ꢀꢁ
P
Single
Device
Description
Package
TSOP-6
SC-88
Dimensions
ꢁ x ꢁ mm
ꢀ x ꢀ mm
ꢀ xꢀ mm
NTGD1100L
NTJD1155L
NTLJDꢀ105L
N-Channel Level Shift, 8 V P-Channel Switch < 80 mW
N-Channel Level Shift, 8 V P-Channel Switch < 175 mW
N-Channel Level Shift, 8 V P-Channel Switch < 50 mW
Integrated Load Switches
WDFN
Low V
BJTs
CE(sat)
Device
Description
Package
ChipFET
ChipFET
TSOP-6
ChipFET
ChipFET
WDFN-ꢁ
Dimensions
ꢀ x ꢁ mm
ꢀ x ꢁ mm
ꢀ x ꢁ mm
ꢀ x ꢁ mm
ꢀ x ꢁ mm
ꢀ x ꢀ mm
NSSꢁ5ꢀ00CF8T1G
NSSꢂ0ꢂ00CF8T1G
NSSꢁ0ꢀ01MR6T1G
NSSꢂ0600CF8T1G
NSSꢂ0601CF8T1G
NSS1ꢀ500UWꢁTꢀG
ꢁ5 V, ꢀ A DC, 7 A Peak
Low to Medium Load Current <ꢂ A
High Load Current >ꢂ A
ꢂ0 V, ꢂ A DC, 7 A Peak
ꢁ0 V, NPN, ꢀ A DC, ꢁ A Peak
ꢂ0 V, PNP, 6 A DC, 7 A Peak
ꢂ0 V, NPN, 6 A DC, 7 A Peak
1ꢀ V, PNP, 5 A DC, 7 A Peak
Device
Description
Package
Dimensions
Integrated Load Switches
EMF5XV6T5
1ꢀ V, PNP with NPN BRT Driver
SOT-56ꢁ
1.6 x 1.6 mm
Page 6
Portable Solutions
Smaller, Thinner, Faster, Cooler & Safer Charging Switch Elements
Charging Switches
Package
SOT-23/TSOP-6
NTGSꢁꢂꢂꢁP
NSSꢁ0100LT1G
NTGFꢁ1ꢀꢁP
Device Type
Key Features
WDFN 2x2 mm
NTLJSꢁ11ꢁP
ChipFET
• Thermal Performance >1.5 W
• Package Footprints as Small as ꢂ mm
• Low Profile <0.8 mm
FET Single
NTHSꢂ101P, NTHS5ꢂꢂ1
NSSꢁ5ꢀ00CF8T1G
ꢀ
Low V
BJT
NSS1ꢀ500UWꢁT1G
NTLJFꢁ117P
CE(sat)
FET + Schottky
FET Dual
NTHDꢁ101F, NTHDꢂP0ꢀF
NTHDꢂ10ꢀP, NTHDꢂꢂ01P
NTLJDꢁ115P
NTGDꢂ161P
Charging Switch
R
SNS
V
IN
Single FET
BJT
VCC
ISNS
VSNS
ISEL
LED
CFLG
CMP
FET +
Schottky
Dual FET
+
MC
+
C
out
C
in
R
ISEL
+
GND
Typical Switch Elements
Typical Charging Switch Circuit
Rectifiers Manage Big Power in Small Packages
10
Schottky Rectifiers
T
T
T
T
T
= 150°C
= 125°C
= 85°C
= 25°C
= -40°C
J
J
J
J
J
Device
V
V
Current
1 A
Package
POWERMITE®
POWERMITE
POWERMITE
POWERMITE
SOD-1ꢀꢁ
RRM
f
MBRM110E
MBRM1ꢀ0E
MBRM1ꢁ0L
MBRM1ꢂ0
MBR05ꢀ0L
MBR05ꢁ0
MBR05ꢂ0
MBR1ꢁ0
10 V
ꢀ0 V
ꢁ0 V
ꢂ0 V
ꢀ0 V
ꢁ0 V
ꢂ0 V
ꢁ0 V
0.ꢂ6 V
0.ꢂ6 V
0.ꢁꢁ V
0.5ꢀ V
0.ꢁꢁ V
0.ꢂꢁ V
0.ꢂ6 V
0.ꢂ7 V
1 A
1 A
1.0
0.1
1 A
0.5 A
0.5 A
0.5 A
1 A
SOD-1ꢀꢁ
SOD-1ꢀꢁ
SOD-1ꢀꢁ
0
0.1
0.2
0.3
0.4
0.5
0.6
v , INSTANTANEOUS FORWARD VOLTAGE (VOLTS)
F
MBRM130L Typical Forward Voltage
ON Semiconductor
Page 7
Low Standby Current Battery Management for Extended Battery Life
V
in
0.48
V
CC
= 0
0.44
0.40
0.36
0.32
0.28
CFLG
EN
Microprocessor
V2P8
VSNS
BAT
FAULT
V
in
V
CC
4.7
F
ISEL TIMER
GND
C
0.24
0.2
in
0.1
F
4.7 F
C
2p8
C
out
15 nF
80 k
C
T
2.5 2.7
2.9
3.1
3.3
3.5
3.7
3.9
4.1
R
ISEL
GND
V
SNS
, BATTERY VOLTAGE (V)
Typical Application Circuit
Battery Drain Current versus Battery Voltage
Battery Management Circuits
Device
Description
Package
DFN-10
DFN-10
Micro8™
SOIC-8
Key Features
NCP18ꢁ5
Up to 1 A Single-Cell Lithium-ion/Polymer Integrated CCCV Battery Charger
Up to ꢁ00 mA Single-Cell Lithium-ion/Polymer Integrated CCCV Battery Charger
Single-Cell Lithium-ion CCCV Battery Charger
No External MOSFET
No External MOSFET
NCP18ꢁ5B
NCP1800
Industry Leading Standby Current 0.5 μA, Adjustable Charge Current Limit
Peak Voltage Detection
MCꢁꢁꢁꢂ0/ꢀ
Nickel Chemistry Battery Cradle Charger
Integrated Overvoltage Protection for Battery and Charging Circuits
Schottky
Diode
P−CH
AC/DC Adapter or
Accessory Charger
V
CC
IN
Undervoltage
Lock Out
+
+
−
C1
FET
Driver
LOAD
Logic
OUT
V
ref
GND
CNTRL
Microprocessor port
Typical OVP Device Diagram
Battery Protection Circuits
Overvoltage Protection
MOSFET
Package
Area (mm)
Logic
Rdson max
(mW) @ 4.5 V
Height
(mm)
Ambient Operating
Temperature (°C)
Device
UVLO (V)
ꢀ.8
OVP (V)
6.85
6.85
5.5
Overide
Vds (V)
ꢀ0
Type
NUSꢀ0ꢂ5
NUSꢁ0ꢂ5
NUSꢁ0ꢂ6
NUS1ꢀ0ꢂ
NUSꢁ055
NUSꢁ0ꢁ5
NCPꢁꢂ5
Yes
Yes
Yes
No
71
66
66
75
66
66
NA
NA
DFN
DFN
ꢁ.ꢁ x ꢁ.ꢁ
ꢁ.ꢁ x ꢁ.ꢁ
ꢁ.ꢁ x ꢁ.ꢁ
ꢀ.0 x ꢀ.0
ꢀ.5 x ꢁ.0
ꢀ.5 x ꢁ.0
ꢁ.0 x ꢀ.75
ꢁ.0 x ꢀ.75
0.85
0.85
0.85
0.85
0.55
0.55
1.00
1.00
-ꢂ0 to +85
-ꢂ0 to +85
-ꢂ0 to +85
-ꢂ0 to +85
-ꢂ0 to +85
-ꢂ0 to +85
-ꢂ0 to +85
-ꢂ0 to +85
ꢀ.8
ꢁ0
ꢁ0
DFN
ꢂ.7
1ꢀ
TDFN
ꢀ.8
ꢀ.6
6.85
ꢂ.ꢂ5
6.85
ꢂ.ꢂ, 5.5
Yes
Yes
Yes
Yes
ꢁ0
TLLGA
TLLGA
SOT-ꢀꢁ-5
SOT-ꢀꢁ-5
ꢁ0
NA
NCPꢁꢂ6
NA
Page 8
Portable Solutions
Optimize Efficiency and Space with Inductive and Charge Pump LED Drivers
C3
C2
C1
220 nF
220 nF
220 nF
C5
16
15
14
13
11
10
GND
C1
4.7 MF
1 MF/10 V
Vbat
NCP5005
4
5
C4
EN
V
bat
Pulse
GND
Vout
CHARGE PUMP
DC−DC CONVERTER
1
12
GND
4.7 MF/10 V
GND
L1
22 MH
2
3
OVERVOLTAGE
GND
FB
EN
Vbat
2
DIGITAL CONTROL
D1
1
V
out
Q1
Q2
Q3
8
7
C2
1.0 MF
MBR0530
D3 D2
R1
100 k
AGND
GND
3
4
D6
D5
D4
GND
R1
ANALOG CONTROL
6
22 7
Q4
GND
5
9
LWT67C LWT67C LWT67C LWT67C LWT67C
OVERTEMPERATURE
PGND
Inductive Solution — NCP5005
Charge Pump Solution — NCP5604A
Number of LEDs/
Connection
Application
LED Type
Topology
Product
Key Feature
Linear or PWM dimming
NUD4301: Adjustable (1-ꢁ0 mA) constant current
driver; DFN-8 (ꢀ x ꢀ mm)
ꢀ LEDs/Parallel
ꢀ - 5 LEDs/Series
ꢁ - 5 LEDs/Series
ꢀ - 5 LEDs/Series
ꢀ LEDs/Parallel
ꢀ LEDs/Parallel
ꢀ - 6 LEDs/Series
Linear
NCP5006/5007: Up to 9ꢀ% efficiency PFM boost,
ꢀ1 V/ 1 W output; thin SOT-ꢀꢁ-5 (ꢁ x ꢁ mm)
Inductive
Inductive
Simple, open LED output clamp
NCP5005: Enhanced version of NCP5006 - high EMI
Enhanced EMI immunity, best for RF
sensitive application
immunity
NCP5010: 1 MHz PWM boost, ꢀꢀ V/0.5 W output, inte-
grated rectifier & true-cutoff; uBump-8 (1.7 x 1.7 mm)
Inductive
Highly integrated driver
Display
Backlighting
Standard, 10-ꢀ5 mA
NCP5602: 90% peak efficiency, ꢀ outputs (ꢀ5 mA
each), ꢀ% current matching, IꢀC; LLGA-1ꢀ (ꢀ x ꢀ mm)
Charge Pump
Charge Pump
Inductive
ICON mode; IꢀC dimming control
ICON mode; S-Wire link dimming control
NCP5612: ꢀ outputs (ꢀ5 mA each), IꢀC; LLGA-1ꢀ
(ꢀ x ꢀ mm)
NCP1ꢂ06: Up to 90% efficiency, PFM (up to 1 MHz),
ꢀ5 V/0.5 W output; thin SOT-ꢀꢁ-5 (ꢁ x ꢁ mm)
Can operate from 1 or ꢀ alkaline or
Ni-based cells
NCP5604A/B: Consistent 90% efficiency, ꢁ or ꢂ
outputs (ꢀ5 mA each), 0.5% current matching;
TQFN-16 (ꢁ x ꢁ x 0.8 mm)
NCP560ꢂA: Drives ꢂ LEDs
NCP506ꢂB: Drives ꢁ LEDs
ꢁ or ꢂ LEDs/Parallel
Charge Pump
Low current - up to 50 mA for
1 cell/100 mA for ꢀ cell
NCP1ꢂ00ASN50: Fixed frequency PWM micropower
boost converter; thin SOT-ꢀꢁ-5 (ꢁ x ꢁ mm)
Can operate from 1 or ꢀ alkaline or
Ni-based cells
Single LED
Single
Inductive
Charge Pump
Inductive
Medium current/Multi-die
WLED, 100-ꢁ50 mA
NCP5603: ꢀ00 mA cont/ꢁ50 mA pulsed, voltage regu-
lated output, ꢂ.5 V or 5 V, 75% eff; DFN-10 (ꢁ x ꢁ mm)
High-current single output charge pump
Simple, low cost
(or multiple in parallel)
Medium current up to 50 mA
for ꢀ cell and 100 mA for ꢁ cell
NCP1ꢂ06: Up to 90% efficiency, PFM (up to 1 MHz),
ꢀ5 V/0.5 W output; thin SOT-ꢀꢁ-5 (ꢁ x ꢁ mm)
ꢀ - 6 LEDs/Series
NCP1ꢂꢀ1: PFM boost (up to 1.ꢀ MHz), sync rec, output
up to 5 V, 600 mA cont, 9ꢂ% eff, true-cutoff, 50 nA
shutdown current; Micro8 (ꢁ x 5 mm)
Flash (Torch)
High current WLED, up to
600 mA
Single
Inductive
Synchronous rectification
Synchronous rectification
(or multiple in parallel)
NCP1ꢂꢀꢀ: PFM boost (up to 1.ꢀ MHz), sync rec, output
up to 5 V, 800 mA cont, 9ꢂ% eff, true-cutoff, 50 nA
shutdown current; DFN-10 (ꢁ x ꢁ mm)
High current WLED, up to
800 mA
Single
(or multiple in parallel)
Inductive
Inductive
Integrated switch for ꢀ adjustable output
current levels
High current WLED, up to 1 A
ꢀ - 5 LEDs/Series
ꢂ LEDs + Flash LED
—
NCP5050: ꢀꢁ V/ꢂ.5 W output, PWM, 1.7 MHz; DFN-10
Single Driver
for Backlight &
Flash
NCP5608: Consistent 90% efficiency, 8 outputs (ꢂ @
ꢀ5 mA each + ꢂ @ 100 mA each), 0.5% current
matching; TQFN-ꢀꢂ (ꢂ x ꢂ mm)
LED (10 - ꢀ5 mA),
Flash LED (100 - ꢂ00 mA)
Charge Pump
Inductive
One chip lighting solution
OLED Driver
Supply
NCP1ꢂ06: Up to 90% efficiency, PFM (up to 1 MHz),
ꢀ5 V/0.5 W output; thin SOT-ꢀꢁ-5 (ꢁ x ꢁ mm)
Can operate from 1 or ꢀ alkaline or
Ni-based cells
—
BOLD denotes new or pending device.
ON Semiconductor
Page 9
EMI Filtering with ESD Protection for LCD and Camera Interfaces
Camera
Module
CLK
Hsync
Vsync
Base
Band
Chip
Key Features
• Excellent low-pass filter characteristics from 800 MHz to 5 GHz
• Low profile package for slim portable electronics
• 0.ꢂ mm pin pitch provides improved layout options
EMI Filtering Devices
Capacitance
Attenuation
Device
# Lines
Package
DFN 8
(pF) @ ꢀ.5 V/Diode @ 900 mHz to 5.0 Ghz
Comments
NUFꢂꢂ0ꢀMN
NUFꢂꢂ0ꢁMN
NUFꢂꢀ10MN
NUFꢂ001MU
NUF6ꢂ01MN
NUF6ꢂ06MN
NUF6ꢂ0ꢀMN
NUF6001MU
NUF8ꢂ01MN
NUF8ꢂ0ꢀMN
NUF8ꢂ10MN
NUF8001MU
NZFꢀꢀ0D
ꢂ
ꢂ
1ꢀ
17
8.5
1ꢀ
17
1ꢁ
17
17
1ꢁ
17
8.5
1ꢁ
6
> -ꢀ8 dB
> -ꢁ5 dB
> -19 dB
> -ꢁ0 dB
> -ꢁ5dB
> -ꢀ8dB
> -ꢁ5dB
> -ꢁ5dB
> -ꢀ8 dB
> -ꢁ5 dB
> -19 dB
> -ꢀ8 dB
> -ꢀ0 dB
> -ꢀ0 dB
> -ꢀ0 dB
> -18 dB
> -ꢀꢁ dB
> -ꢀ0 dB
DFN 8
Low parasitic inductance package design
ꢂ
DFN 8
ꢂ
uDFN 8*
DFN 1ꢀ
DFN 1ꢀ
DFN 1ꢀ
uDFN 1ꢀ*
DFN 16
DFN 16
DFN 16
uDFN 16*
SC-88
6
6
Low parasitic inductance package design
ꢂ + ꢂ
6
8
8
—
8
8
ꢀ
NUFꢀ0ꢁ0XV6
NUFꢀ0ꢂꢀXV6
NUFꢀꢀꢀ0XV6
NUFꢀꢀꢁ0XV6
NZFꢀꢀ0T
ꢀ
SOT-56ꢁ
SOT-56ꢁ
SOT-56ꢁ
SOT-56ꢁ
SC-70
16
ꢀ1
7
ꢀ
—
ꢀ
ꢀ
16
7
1
* Low profile package with 0.ꢂ mm pin pitch
Page 10
Portable Solutions
Transient Voltage Protection Devices for I/O
IEC61000-4-2 Contact Positive Pulse
IEC61000-4-2 Contact Negative Pulse
TVS Protection Devices
ESD Rating
IEC61000-4-2
Contact
Dimensions
Surge Rating
Device
Description
Package
SOD-9ꢀꢁ
SOD-7ꢀꢁ
SOT-7ꢀꢁ
SOD-5ꢀꢁ
SOD-5ꢀꢁ
SC-89
(mm) L x W x H
8 x ꢀ0 μs
ESD9X Series
μESDxxS Series
μESDxxD Series
ESD5B Series
ESD5Z Series
NZL Series
TVS and ESD Protection Diode
TVS and ESD Protection Diode
Dual TVS and ESD Protection Diode
Bi-directional TVS and ESD Protection Diode
TVS and ESD Protection Diode
Dual TVS and ESD Protection Diode
Dual ESD Protection Diode
Quad TVS Array
1.0 x 0.6 x 0.ꢂ
1.ꢂ x 0.6 x 0.5
1.ꢀ x 1.ꢀ x 0.5
1.6 x 0.8 x 0.6
1.6 x 0.8 x 0.6
1.6 x 1.6 x 0.7
ꢀ.9 x ꢀ.ꢂ x 1.0
1.6 x 1.6 x 0.55
1.0 x 1.0 x 0.ꢂ5
1.6 x 1.6 x 0.55
ꢀ.0 x ꢀ.1 x 1.0
1.6 x 1.6 x 1.0
Up to 1ꢂ0 W
Up to 1ꢀ8 W
—
ꢁ0 kV
ꢁ0 kV
ꢀꢀ kV
ꢁ0 kV
ꢁ0 kV
ꢀꢀ kV
15 kV
9 kV
—
Up to ꢀꢂ0 W
—
SM05 Series
SOT-ꢀꢁ
Up to ꢁ00 W
Up to 100 W
—
NZQA Series
SOT-55ꢁ
SOT-95ꢁ
SOT-56ꢁ
SC-88
NUPꢂ5V6 Series
NUP51ꢀ0 Series
NUPꢀꢀ0ꢀ/ꢂꢀ0ꢀ Series
NUP8010 Series
Quad TVS Array
8 kV
Penta TVS Array
Up to 90 W
Up to 500 W
Up to ꢀ0 W
8 kV
Single and Dual Port USB ꢀ.0
Eight Line TVS Array
ꢀ0 kV
8 kV
DFN-8
ON Semiconductor
Page 11
Audio Filters – LC Network EMI Filters with ESD Protection
0
-10
-20
-30
-40
-50
-60
-70
L
L
C
C
C
C
1
2
Discrete
1
2
Implementation
Integrated Filter
Response
L
Figure 1
C
C
C
d
d
L
C
d
d
1.E+05
1.E+06
1.E+07
Frequency (Hz)
1.E+08
1.E+09
1.E+10
Figure 2
EMI Audio Filters
Device
Key Features
Lines Resistance (W) Inductance (nH)
Package
Circuit Diagram
• ESD protection exceeds 15 kV (IEC61000-ꢂ-ꢀ)
• Integrated Inductors ranges ꢀ.7 - 5.0 nH
• Low Series Resistance of 0.ꢀ8 - ꢂ.0 Ohms
• Excellent Sꢀ1 curves characteristics
• Steady state current of greater than 500 mA/line
• Peak Current 1.ꢀ A
NUFꢀꢂꢂ1FCT1G
NUFꢀꢂ50MUT1G
NUFꢀ070MNT1G
NUFꢀ11ꢂMNT1G
NUFꢀ116MNT1G
NUFꢂꢀꢀ0MNT1G
ꢀ
ꢀ
ꢀ
ꢀ
ꢀ
ꢂ
0.ꢀ7
1.5
ꢀ.5
10
ꢁ
ꢀ.5
ꢂ.5
—
Flip-Chip
Figure 1
Figure ꢀ
Figure 1
—
uDFN (1.ꢀ x 1.8 mm)
DFN (ꢀ.0 x ꢀ.0 mm)
DFN (ꢀ.0 x ꢀ.0 mm)
DFN (ꢀ.0 x ꢀ.0 mm)
DFN (ꢀ.0 x ꢀ.0 mm)
68
—
—
1.ꢀ
5
Below
EMI Filter and ESD Protection for Stereo Headset Jacks
Shrinks by 50% for MP3/Cellphone Applications
NUF4220
L
R Audio Input
C
1
C
1
C
1
C
1
C
C
C
C
2
2
2
2
Key Performance Characteristics
• > ꢁ5 dB of RF Attenuation from 900-ꢁ000 MHz
• Compliant with IEC61000-ꢂ-ꢀ (Level ꢂ) – 15 kV Air
and Contact
• Extremely low loss signal path in Audio Band
• ꢀ x ꢀ mm DFN Package
L
L
L
L Audio Input
Microphone Line
Microphone Line
• Flow through pinout for easy PCB layout
NUF4220 Stereo Headset Filter Solution
Page 1ꢀ
Portable Solutions
NCP2820 Filter-Free Class D Audio Amp Improves System Efficiency
and Eliminates PCB Hot Spots in Audio Subsystems
100
100
90
80
70
60
50
40
90
80
70
60
50
40
30
20
10
0
NCP2820
Class AB
V
R
= 5 V
= 8
p
L
Class AB
V
R
= 5 V
= 8
p
L
30
20
NCP2820
1.0 1.2
0
0.5
1.0
0
0.2
0.4
0.6
0.8
(W)
1.4
P
out
(W)
P
out
Extend Battery Life over with 2X Efficiency
Improvement at 0.5 W Output Power
Keep Cool Across All Power Ranges
Key Performance Characteristics
• Wide Supply Range of ꢀ.ꢀ – 5.5 V
n
Superior >65 dB PSRR allows direct connection to the Battery
n
1 W to 8 W (BTL) Bridge Tied Load or ꢀ.65 W to ꢂ W BTL @ 5 V
• Thermal overload protection circuitry
• “Pop and click” noise protection circuit
Low Voltage Audio Amplifier Selector Guide
Audio Output/
Application
Topology/
Features
Output
Power
PSSR
@ 217 Hz
Turn-On
Time (Typ)
Iq
(Typ)
Shut-Down
Current (Typ)
Class
Efficiency
THD+N
Package(s)
Device
Micro8™
AB
AB
AB
BTL
BTL
1 W+
1 W+
1 W+
-7ꢁ dB
-7ꢁ dB
-80 dB
6ꢁ%
6ꢁ%
6ꢂ%
0.0ꢀ%
0.0ꢀ%
ꢀ85 ms
100 ms
1ꢂ0 ms
1.5 mA
1.5 mA
1.9 mA
10 nA
10 nA
ꢀ0 nA
NCP2890
NCP2892A
NCP4894
Microbump-9
Mono Speaker —
Basic Telephone Operation &
Ployphonic Ringtones
Microbump-9
Microbump-9
DFN-10
Differential
0.006%
Virtual Ground
No Output Cap
AB
AB
1ꢁ5 mW/Ch
150 mW/Ch
-8ꢀ dB
-80 dB
6ꢁ%
6ꢂ%
0.00ꢁ%
0.006%
ꢀ85 ms
1ꢂ0 ms
1.5ꢂ mA
1.9 mA
10 nA
ꢀ0 nA
Micro10
NCP2809
NCP4894
Stereo Headphones —
MPꢁ Players, Bluetooth
Headsets
Microbump-9
DFN-10
Differential
1 W to
Speaker;
ꢀ50 mW to
Earpiece
Mono Speaker/Earpiece —
Low Cost Integrated Solution
Single End/
Differential
SE 0.00ꢁ%,
BTL 0.01%
AB
D
-70 dB
-65 dB
-65 dB
6ꢂ%
90%
90%
1ꢂ0 ms
9 ms
1.7 mA
ꢀ.ꢀ mA
ꢀ.5 mA
ꢀ0 nA
ꢁ00 nA
500 nA
Microbump-9
NCP4896
NCP2820
NCP2821
Filterless,
Gain Select by
Resistors
Microbump-9
DFN-8
ꢀ.65 W
ꢀ.65 W
0.05%
0.05%
Mono Speaker —
Handsfree Speaker Phone
Filterless,
Integrated Ext
Selectable Gain
6 or 1ꢀdB
D
9 ms
Microbump-9
Microbump-9
Stereo Speakers —
Filterless, Gain
Selection by
Resistor
Offer Stereo Sound Quality
to Play Video/Music-on-
Demand, MPꢁ
ꢀ W+
per Channel
2x NCP2820
or NCP2821
D
-65 dB
90%
0.05%
9 ms
ꢂ.ꢂ mA
600 nA
ON Semiconductor
Page 1ꢁ
Complete Audio Amplifier Solution for Driving Speakerphone
and Earpiece in a 2.1 mm2 Chipscale Package
ON
OFF
NCP4896 Class AB Audio Amplifier
Key Performance Characteristics
• Wide Supply Range of ꢀ.ꢀ – 5.5 V
• Superior >70 dB PSRR allows direct connection to the battery
• THD+N:
n
0.00ꢁ%-0.01% (ꢂ0 mW Pout)
n
0.0ꢀ% (ꢂ00 mW)
NCP4896
Demo Board
Available
• 1 W to 8 W (BTL) Bridge Tied Load @ 5 V
• 90 mW to ꢁꢀ W single ended load @ 5 V
• Thermal overload protection circuitry
• “Pop and click” noise protection circuit
Low Voltage, Low Power Comparators
VCC
Hook Switch Detection
Key Performance Characteristics
Headphones + Mic
L
• Higher Detection Accuracy/Reliability
• Additional ESD Protection
• OK with DC and Audio Signals
• Internal Hysteresis
> 1 k7
ON/OFF
R
Vref
NCS2220A
VCC
• Ultra Small Packaging
Vref
Detect
Comparators
Hook
Mic
Switch
Device
V
Package(s)
RRM
Mirophone and
Headphone Detection
ree Head Set
NCSꢀꢀ00
Series
Single Low
Voltage Comparator
SC-70, SOT-ꢀꢁ, QFN ꢀ x ꢀ.ꢀ,
uDFN 1.ꢀ x 1.0
Dual Low
Voltage Comparator
NCSꢀꢀ00A
uDFN 1.6 x 1.6
CELL PHONE
Hook Switch
Typical Detection Circuit
Page 1ꢂ
Portable Solutions
Biased Audio for the Highest Output Power from a
Single-Cell Lithium-Ion Battery
2.5
2.0
1.5
1.0
4 7
8 7
NCP5603
Vout = 4.5 or 5.0 V
CF1+
CF1+
CF1+
CF2+
VIN
1.0 MF
10 MF
EN
470 nF
470 nF
200 mA
ON
FSEL
OFF
NCP2820
VSEL CF2-
GND
0.5
0.0
2.5
3.0
3.5
4.0
4.5
5.0
V
(V)
CC
DC-DC Converters
NCP2820 Output Power
versus Supply for THD+N <1%
Current Capability
Efficiency @ Current Load
(V = 5 V, V = 3.6 V)
Device
Architecture
(V = 5 V, V = 3.6 V)
Package
out
in
out
in
NCP5603
NCP1421
NCP1422
Charge Pump
Inductive
160 mA
75%
DFN-10, ꢁ x ꢁ mm
Micro10, ꢁ x 5 mm
DFN-10, ꢁ x ꢁ mm
To maximize the power output of a linear audio amplifier in
portable applications, it is necessary to bias the amp at a
fixed voltage instead of operating directly from the battery.
500 mA
700 mA
87%
88%
Inductive
Stereo Switching with SPDT Audio Switches
NLAS5123B
NLAS5223B
Two DFN-6 Packages
Single WQFN-10 Packages
Requiring 2.4 mm2 of Board Space
Requiring 2.52 mm2 of Board Space
Lin1
Lout
Lin2
Lin1
Voice/MP3
Decoder
Lout
Voice/MP3
Decoder
Lin2
Rin1
Rout
Rin2
FM
Tuner
Selection
Control
Rin1
Rout
FM
Tuner
0.75 mm
Rin2
Selection
Control
1.40 mm
One WQFN-10
Package
0.75 mm
0.75 mm
3
5
6
1.20 mm
1.20 mm
Key Performance Characteristics
•ꢀExcellent Audio Fidelity - Very Low THD,
0.011% Typical
•ꢀWide 1.65 to 5.5 V Power Supply Range
•ꢀExtended Temperature Capable
Two DFN-6
Packages
1.80 mm
1
1
3
1
3
1.00 mm
1.00 mm
10
6
4
6
4
•ꢀLow R
, Tight Channel Matching
DS(on)
ON Semiconductor
Page 15
Low Capacitance Analog Switches for Data Switching
NLAS4717 Dual SPDT
Microbump-10 Using
Only 3 mm2
USB
Transceiver
ESD/EMI
Filter
Connector
Selection
Control
Selection
Control
UART
3 mm
1.96 mm
NLAS4717EP Dual SPDT
• USB ꢀ.0 Full Speed Compliant
• <ꢁ0 pF On Capacitance
PIN ONE
CORNER
1.46 mm
0.65 mm
4.95 mm
• NLAS7ꢀꢀꢀMTRꢀG Dual SPDT
• USB ꢀ.0 High Speed Compliant
• <7 pF On Capacitance
PIN 1 ID
Key Performance Characteristics
• Wide 1.8 - 5.5 V Power Supply Range
1 mm
• Low R
, ꢂ.5 W @ ꢁ.0 V
DSon
• Matching Between the Switches 0.5 W
Microbump-10
Micro10
Ensure Low Drain Current with Voltage Supervisory Devices
Supervisory Devices
NCP300/301
NCP302/303
NCP304/305
Under
Voltage
Device
NCPꢁ00
NCPꢁ01
NCPꢁ0ꢀ
NCPꢁ0ꢁ
NCPꢁ0ꢂ
NCPꢁ05
MAX809
MAX810
MAX80ꢁ
MAX708
Function
Volt Detector
Volt Detector
Volt Detector
Volt Detector
Volt Detector
Volt Detector
Reset Generator
Reset Generator
Reset Generator
mP Reset Mo
Pertinent Features
Package
SOT-ꢀꢁ-5
SOT-ꢀꢁ-5
SOT-ꢀꢁ-5
SOT-ꢀꢁ-5
SC-8ꢀAB
SC-8ꢀAB
SOT-ꢀꢁ
Sensing
Complementary Output, No External Delay
Open Drain Output, No External Delay
Under
Voltage
Sensing
Reset
Time-Out
Counter
MAX809/810
NCP803
Complementary Output, Programmable External Delay
Open Drain Output, Programmable External Delay
Complementary Output, No External Delay
Open Drain Output, No External Delay
Under
Voltage
Sensing
Reset
Time-Out
Counter
Power
Fail
Comparator
Manual
Reset
MAX708
Key Performance Characteristics
• Lowest quiescent current for extended battery life
• Complete range of products
• Large number of voltage thresholds
• Wide operating voltage range up tp 10 V
1ꢂ0 mS, Minimum Output Reset-Low Delay
1ꢂ0 mS, Minimum Output Reset-High Delay
1ꢂ0 mS, Minimum Output Drain Output Reset-Low Delay
ꢀ00 mS Push-Pull Output Reset Delay, Std Threshold
SOT-ꢀꢁ
SOT-ꢀꢁ
SO-8, Micro8™
Page 16
Portable Solutions
Achieve Lower EMI with Spread-Spectrum Clock Synthesizers
EMI Clock Synthesizers
fin
Accepts Accepts
Spread
Modulation
Rate
Output
Crystal Reference Power
Spectrum
Frequency Reference
Device
(MHz)
Input
Input
Down Enable/Disable Equation
Deviation
Output
NBꢀ669A
NBꢀ760A
NBꢀ76ꢀA
NBꢀ769A
NBꢀ869A
NBꢀ969A
NBꢀ579A
NBꢀ779A
NBꢀ870A
NBꢀ87ꢀA
NBꢀ879A
NBꢀ780A
6 - 1ꢁ
N
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
Y
N
N
N
N
N
N
Y
f ÷ ꢀ56
1%
N
in
6 - 1ꢁ
f ÷ ꢀ56
in
0.75%
-1.ꢀ5%
1%
N
6 - 1ꢁ
Y
f ÷ ꢀ56
in
N
6 - 1ꢁ
Y
f ÷ ꢀ56
in
N
6 - 1ꢁ
N
N
N
Y
f ÷ ꢀ56
in
1%
Y
6 - 1ꢁ
f ÷ ꢀ56
in
1%
Y, ÷ ꢀ
1ꢁ - ꢁ0
1ꢁ - ꢁ0
1ꢁ - ꢁ0
15 - ꢁ0
15 - ꢁ0
ꢁ0 - 50
f ÷ 6ꢂ0
in
1%
N
N
Y
N
N
N
N
N
f ÷ 6ꢂ0
in
1%
N
N
N
Y
f ÷ 6ꢂ0
in
0.75%
-1.ꢀ5%
1%
f ÷ 6ꢂ0
in
Y
f ÷ 6ꢂ0
in
Y
f ÷ 1ꢀ80
in
0.75%
N
Key Performance Characteristics
• Replace ferrite beads and chokes
• Reduce peak EMI by 6 – ꢀ6 dBm
• Power Down mode reduces current draw to ꢂ μA
ON Semiconductor
Page 17
LDO Voltage Regulators
Single Output Low-Dropout Linear Regulators (LDOs)
Absolute
Max Input
Device
NCP51ꢀ
Iout
Dropout* (typ)
Iq** (typ)
PSRR****
Voltage
Package(s)-pins
Vout
Features
1.5, 1.8, ꢀ.5, ꢀ.7, ꢀ.8, ꢁ, ꢁ.1,
ꢁ.ꢁ, 5 V
80 mA
160 mV
ꢂ0 μA
60 dB
6 V
SC-70-5
Enable
1.5, 1.8, ꢀ.5, ꢀ.7, ꢀ.8, ꢁ,
ꢁ.ꢁ, 5 V
NCP55ꢁ
80 mA
650 mV
160 mV
ꢀ.8 μA
ꢀ5 dB
90 dB
1ꢀ V
ꢂ0 V
SC8ꢀAB-ꢂ
Ultra Low Iq, No Cap
High PSRR
ꢂ00 μA
(@10mA)
SO-8, TO-9ꢀ-ꢁ, TO-ꢀꢀ0-ꢁ/5,
DPAK-ꢁ, DꢀPAK-ꢁ/5
LMꢀ9ꢁ1A/C/AC
100 mA
Adj, 5 V
LPꢀ950C/AC
LPꢀ951C/AC
100 mA
100 mA
ꢁ50 mV
ꢁ50 mV
75 μA
75 μA
—
—
ꢁ0 V
ꢁ0 V
DPAK-ꢁ, TO-9ꢀ-ꢁ
ꢁ, ꢁ.ꢁ, 5 V
Tight Line & Load Reg.
Enable, Error Output
SO-8, Micro8, DIP-8
Adj, ꢁ, ꢁ.ꢁ, 5 V
1.5, 1.8, ꢀ.5, ꢀ.7, ꢀ.8, ꢁ, ꢁ.1,
ꢁ.ꢁ, 5 V
NCP612
NCP662
NCP663
100 mA
100 mA
100 mA
ꢀ00 mV
ꢀꢁ0 mV
ꢀꢁ0 mV
ꢂ0 μA
ꢀ.5 μA
ꢀ.5 μA
60 dB
ꢀ5 dB
ꢀ5 dB
6 V
6 V
6 V
SC-70-5
SC8ꢀAB-ꢂ
SC8ꢀAB-ꢂ
Enable
1.5, 1.8, ꢀ.5, ꢀ.7, ꢀ.8, ꢁ,
ꢁ.ꢁ, 5 V
Enable, Ultra Low Iq
Ultra Low Iq
1.5, 1.8, ꢀ.5, ꢀ.7, ꢀ.8, ꢁ,
ꢁ.ꢁ, 5 V
NCP580
1ꢀ0 mA
150 mA
180 mV
90 μA
ꢁ5 μA
80 dB
70 dB
6.5 V
9 V
SC8ꢀAB-ꢂ
SOT-ꢀꢁ-5
1.5, 1.8, ꢀ.5, ꢀ.8, ꢁ, ꢁ.ꢁ V
1.8, ꢀ.5, ꢀ.8, ꢁ, ꢁ.ꢁ, 5 V
Enable, Ultra Low Noise
Enable, Ultra Low Noise
MC78PC
ꢀ00 mV (@100 mA)
1.8, 1.85, ꢀ.5, ꢀ.6, ꢀ.7, ꢀ.8,
ꢁ, ꢁ.ꢁ, 5 V
NCP500
NCP511
NCP551
150 mA
150 mA
150 mA
150 mV
90 mV (@100 mA)
7ꢀ0 mV
175 μA
ꢂ0 μA
ꢂ.0 μA
6ꢀ dB
60 dB
ꢀ5 dB
6 V
6 V
SOT-ꢀꢁ-5, (ꢀxꢀ.ꢀ) DFN-6
SOT-ꢀꢁ-5
Enable, Fast Transient
Enable
1.5, 1.8, ꢀ.5, ꢀ.7, ꢀ.8, ꢁ,
ꢁ.ꢁ, 5 V
1.5, 1.8, ꢀ.5, ꢀ.7, ꢀ.8, ꢁ,
ꢁ.ꢁ, 5 V
1ꢀ V
SOT-ꢀꢁ-5
Enable, Ultra Low Iq
NCP623
NCP582
NCP583
NCP600***
NCP584
150 mA
150 mA
150 mA
150 mA
ꢀ00 mA
180 mV
ꢀꢀ0 mV
ꢀ50 mV
100 mV
ꢀ00 mV
170 μA
75 μA
90 dB
70 dB
ꢂ5 dB
6ꢀ dB
75 dB
1ꢀ V
6.5 V
6.5 V
6 V
Micro8, (ꢁxꢁ) DFN-6
SOT-56ꢁ-6, SC8ꢀAB-ꢂ
SOT-56ꢁ-6, SC8ꢀAB-ꢂ
SOT-ꢀꢁ-5
ꢁ.ꢁ, ꢂ, 5 V
Enable, Ultra Low Noise
1.5, 1.8, ꢀ.5, ꢀ.8, ꢀ.9, ꢁ, ꢁ.ꢁ V Enable, Ultra Low Noise
1.5, 1.8, ꢀ.5, ꢀ.8, ꢀ.9, ꢁ, ꢁ.ꢁ V Enable, Ultra Low Iq
1.0 μA
175 μA
ꢁ.5 μA
Adj
Enable, Fast Turn-ON
6.5 V
SOT-ꢀꢁ-5
0.9, 1.ꢀ, 1.5, 1.8, 2.6, 3.1 V Enable, Tri-Mode
SO-8, DPAK-ꢁ, SOT-ꢀꢀꢁ-ꢁ,
MCꢁꢁꢀ75
ꢁ00 mA
ꢀ60 mV
1ꢀ5 μA
75 dB
1ꢁ V
ꢀ.5, ꢁ, ꢁ.ꢁ, 5 V
Tight Line & Load Reg.
(ꢂxꢂ) DFN-8
NCP585
ꢁ00 mA
500 mA
500 mA
ꢁ10 mV
ꢁ.5 μA
190 uA
190 μA
75 dB
—
6.5 V
16 V
16 V
SOT-ꢀꢁ-5, HSON-6
SO-8
0.9, 1.ꢀ, 1.8 V
Adj
Enable, Tri-Mode
NCP3334***
NCP3335A
ꢁꢂ0 mV (max)
ꢁꢂ0 mV (max)
Enable, High Accuracy
Enable, High Accuracy
75 dB
Micro8, (ꢁxꢁ) DFN-10
Adj, ꢀ.5, ꢀ.85, ꢁ.ꢁ, 5 V
*
**
Voltage dropout was measured at full load for Vout = ꢁ.ꢁ V where applicable unless noted.
Iq was measured at 0 or 0.1 mA load unless noted
*** Release to Market in Qꢀ-ꢀ006
**** PSRR was measured at f = 1ꢀ0 Hz for Vout = ꢁ.ꢁ when applicable.
Bold Denotes NEW Products, Packages, and/or Voltage Options
Contact an ON Sales Representative for other voltage options or for automotive grade regulators.
+4.0%
Enhanced
Tolerance
+1.5%
0%
Key Performance Characteristics
• Maintains accuracy over full temperature and load
NCP3335A
current operating conditions
-1.5%
-4.0%
Page 18
Portable Solutions
MiniGate™ Logic
Logic MiniGates
NL17SV**XV5T2
SOT-553 Package
NL17SZ**DFT2G
SOT-353 Package
NL17SZ**XV5T2
SOT-553 Package
Function
Designator
00
MiniGate™ Operating Voltage vs T with Drive Current
pd
2-Input NAND Gate
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
4
6.0
2-Input NOR Gate
02
5.5
HC
2 mA
Input Inverter
04
5.0
SZ
24 mA
Unbuffered Input Inverter
Inverter, Open Drain
Non-Inverting Buffer, Open Drain
2-Input AND Gate
U04
06
Volts
4.0
3.6
VHC
8 mA
07
08
4
4
4
3.0
Schmitt Inverter
14
SV
Non-Inverting Buffer
Schmitt Buffer
16
24 mA
2.0
1.65
17
2-Input OR Gate
32
1.0
0.9
2-Input XOR Gate
86
2.0
2.7 3.0
5.0
7.0
3-State, Non-Inverting Buffer, Active Low
3-State, Non-Inverting Buffer, Active High
125
126
4
4
T
(ns)
pd
Most devices also offered in Duals (NL27WZxx Series) or Triples (NL37WZxx Series)
MiniGate™ Package Size Comparison - 5 Leads
2.0
1.7
1.0
2.1
1.7
0.55
SC−88A/SOT−353
SOT−553
3.0
1.0
TSOP−5/SC-74A
2.75
SIM/SAM Card Interface ICs
Key Features of NCN4555/7
• Single & Dual SIM interface (Subscriber Identity Module)
• Sequencer on NCNꢂ557
• 1.8 V - 5.5 V Digital Input Voltage
• Fully compatible with ISO7816-ꢁ, GSM11.11/11.1ꢀ/11.18,
IMT-ꢀ000 / ꢁG TS ꢁ1.101
• Supports 1.8 V / ꢁ V Cards
• Linear DC-DC Converter (LDO) able to supply current in excess
SIM Interface Device Comparison
Product Features
Analog Interfaces
Card Types (V)
NCN4555
NCN4557
ꢀ cards
1.8/ꢁ
>5
1 card
1.8/ꢁ
Max Clock Frequency (MHz)
Power Supply (Type)
Power Supply (V)
>5
Built-In LDO-Type DC-DC
ꢀ.7 - 5.5
Built-In LDO-Type DC-DC
ꢀ.7 - 5.5
of 50 mA at 1.8 V & ꢁ V (Vbat ranging from ꢀ.7 V to 5.5 V)
• Very low stand-by and operating power consumption
• >5 MHz clock frequency
• >7 kV HBM ESD protection
on SIM pins
Activation/Deactivation
Packaging
No
Yes
Low Profile QFN-16
-ꢀ5 to +85
Low Profile QFN-16
-ꢀ5 to +85
Tempetarure Range (°C)
Wireless Protocol
ESD Protection (kV)
GSM 11.1x/ꢁG TS ꢁ1.101
8
GSM 11.1x/ꢁG TS ꢁ1.101
8
• Low profile ꢁ mm x ꢁ mm
QFN-16 package
NCN4555
Demo Board
ON Semiconductor
Page 19
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mCool and MiniGate are trademarks of SCILLC. Micro8 is a trademark of International Rectifier. FETKY is a registered trademark of International Rectifier. ChipFET is a trademark of Vishay Siliconix. POWERMITE is a registered trademark of Microsemi Corporation.
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BRD8026/D
BRD8026-2 PRINTED IN USA 06/06 IRONWOOD XXXX 5K
相关型号:
MBR10-H
Board Connector, 10 Contact(s), 2 Row(s), Male, Right Angle, 0.079 inch Pitch, Solder Terminal, Locking, Black Insulator, Receptacle
AUK
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