Computing Solutions Brochure

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Dual-Edge & RPM Modulation Vcore Controllers
for IMVP8 Designs
Features of Multi-Phase Dual Edge Architecture
•Current-mode dual-edge modulation for fast initial response to transient loading
•High-performance operational error amplifier
•Accurate total summing current amplifier
•High-impedance differential voltage and total current sense amplifiers
•Phase-to-phase dynamic current balancing
•“Lossless” DCR current sensing for current balancing
Features of Enhanced Single-Phase RPM Architectures
•High performance RPM control system
•Ultralow offset IOUT monitor
•Dynamic VID feed-forward
•Programmable droop gain
•Zero droop capable
•Thermal monitor
•Ultra-sonic operation
•Digitally controlled operating frequency
Device
NCP81201
Market
Tablet
Function
Controller
VR Spec
VR12.1
Controller Architecture
RPM
Number of Rails
1
CPU Phases
1
Integrated
Drivers
—
Interface
SVID
Package
QFN-28
NCP81111
Microserver
Controller
VR12.5
Hybrid
1
1/2/3
—
SVID
QFN-32
NCP81203
Desktop
Controller
IMVP8
Dual Edge
2
3/2/1+2/1
—
SVID
QFN-52
NCP81203P
Notebook
Controller
IMVP8
Dual Edge
2
3/2/1+2/1
—
SVID
QFN-52
NCP81205
Notebook
Controller
IMVP8
Dual Edge & EN RPM
3
1/2/3+1/2/3+1
—
SVID
QFN-52
NCP81206
Ultrabook
Controller
IMVP8
Dual Edge & EN RPM
3
1+1/2+1
3 x 5V
SVID
QFN-52
NCP81208
Ultrabook
Controller
IMVP8
Dual Edge & EN RPM
3
1+1/2+1
—
SVID
QFN-48
NCP81210
Ultrabook & Notebook
Controller
IMVP8
EN RPM
1
1
1 + FETs
SVID
QFN-40
Please contact ON Semiconductor for product datasheets.
Page 2
Computing Solutions
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Ultrabook Solution
Notebook Solutions
NCP81208 1+2+1 Phase Controller
•Dual Edge & DCR current sensing for fast transient response
•EN RPM for fast transition between DCM and CCM mode
•True Differential Current Balancing
•IMVP8 compliant
NCP81205 3+3+1 Phase Controiler
•Dual Edge & DCR current sensing for fast transient response
•EN RPM for fast transition between DCM and CCM mode
•True Differential Current Balancing
•IMVP8 compliant
RAIL1
NCP81382
DrMOS
+20 V
NCP81151
5 V Driver
CPU
+20 V
NCP81208
1+2+1
Phase
Controller
RAIL1
NCP81151
5 V Driver
NCP81382
DrMOS
RAIL2
CPU
+20 V
NCP81382
DrMOS
NCP81151
5 V Driver
+20 V
RAIL3
NCP81382
DrMOS
NCP81205
3+3+1
Phase
Controller
NCP81151
5 V Driver
+20 V
RAIL2
NCP81151
5 V Driver
Desktop Solutions
+20 V
NCP81203 3+2 Phase Controller
•Dual Edge for fast transient response
•Constant on-time for light load efficiency
•Supports all MLCC output capacitor solutions
•IMVP8 compliant
NCP81151
5 V Driver
+20 V
NCP81253
5 V Driver
RAIL3
+12 V
NCP81161
12 V Driver
Microserver Solutions
+12 V
RAIL1
NCP81161
12 V Driver
+12 V
NCP81203
3+2
Phase
Controller
CPU
NCP81111 3-Phase Digital Controller
•Optimised to operate at 5MHz using DrMOS
•Can operate as general purpose I2C controller regulator
•Internal compensation using GUI interface
•VR12.5/6 compliant
NCP81161
12 V Driver
NCP81381
DrMOS
+12 V
NCP81161
12 V Driver
NCP81111
RAIL2
+12 V
NCP81161
12 V Driver
ON Semiconductor
3
Phase
Controller
NCP81381
DrMOS
RAIL1
CPU
NCP81381
DrMOS
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IMVP8 Multiphase Controllers for Embedded Applications
+20 V
NCP81151
5 V Driver
+20 V
RAIL1
NCP81151
5 V Driver
CPU
+20 V
NCP81151
5 V Driver
NCP81245 3+3+1 Phase Controller
•Dual Edge & DCR current sensing for fast transient response
•EN RPM for fast transition between DCM and CCM mode
•True Differential Current Balancing
•IMVP8 compliant
+20 V
NCP81245
3+3+1
Phase
Controller
NCP81151
5 V Driver
+20 V
RAIL2
NCP81151
5 V Driver
+20 V
NCP81151
5 V Driver
+20 V
RAIL3
NCP81253
5 V Driver
Device
NCP81243
Market
Desktop
Function
Controller
VR Spec
IMVP8
Controller Architecture
Dual Edge
Number of Rails
2
CPU Phases
3/2/1+2/1
Integrated
Drivers
—
Interface
SVID
Package
QFN-52
NCP81245
Notebook
Controller
IMVP8
Dual Edge & EN RPM
3
1/2/3+1/2/3+1
—
SVID
QFN-52
NCP81246
Ultrabook
Controller
IMVP8
Dual Edge & EN RPM
3
1+1/2+1
3x5V
SVID
QFN-52
NCP81248*
Ultrabook
Controller
IMVP8
Dual Edge & EN RPM
3
1+1/2+1
-
SVID
QFN-48
NCP81255*
Ultrabook & Notebook
Controller
IMVP8
EN RPM
1
1
1 + FETs
SVID
QFN-40
NCP81145
Ultrabook & Notebook
5 V Driver
—
for Dual Edge Rail
—
—
—
—
DFN-8
NCP81146
Desktop
12 V Driver
—
for Dual Edge Rail
—
—
—
—
DFN-8
NCP81253
Ultrabook & Notebook
5 V Driver
—
for EN RPM rail
—
—
—
—
DFN-8
* Pending 1H16.
Page 4
Computing Solutions
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System Power
System power management devices provide additional rails in computing applications, beyond Vcore and graphics. They are available
with single or dual channel operation, and also in multi-phase configurations.
1 F
VIN = 2.5 V − 13.2 V
3x22 F
VBST = 4.5 V − 15 V
1500 F
VCC = 4.5 V − 13.2 V
2x0.22 F
1500 F
0.1 F
C3
0.014 F
R3
74.2
FB
LG
GND
VOS
R9
R10
NTD4806
LX
ROCSET
R1
4.12k
C2
0.007 F
VOUT
1.65 V
1 H
2x1800 F
4.7nF
1.02k
R4
3.878k
R2
17.08k
UG
1.02k
C1
0.0015 F
COMP/EN
2.2
BOOT
NTD4809
VCC
PGOOD
GND
NCP1589A Application Diagram
Device
NCP1579
Description
Synchronous Buck Controller, Low Voltage
Topology
Step-Down
VCC Min
(V)
4.5
VCC Max
(V)
13.2
fSW Typ
(kHz)
275
Package
SOIC-8
NCP1587
Synchronous Buck Controller, Low Voltage
Step-Down
4.5
13.2
250 - 300
SOIC-8
NCP1587A
Synchronous Buck Controller, Low Voltage
Step-Down
4.5
13.2
180 - 220
SOIC-8
NCP1589A
Synchronous Buck Controller, Low Voltage
Step-Down
4.5
13.2
—
DFN-10
NCP1589D
Snychronous Buck Controller
Step-Down
4.5
13.2
—
DFN-10
NCP1589L
Synchronous Buck Controller, Low Voltage, with Light Load Efficiency and Transient Enhancement
Step-Down
4.5
13.2
—
DFN-10
NCP5212
Single Synchronous Step Down Controller
Step-Down
4.5
27
300
QFN-16
NCP5217
Synchronous Buck Controller, Single
Step-Down
4.5
27
300
QFN-14
NCP5230
Low Voltage Synchronous Buck Controller
Step-Down
4.5
13.2
—
QFN-16
NCP5269
System Agent Controller with 2-bit VID
Step-Down
3.3
28
300 - 600
QFN-20
NCP3231
25 A Synchronous Buck Converter with Intergrated MOSFETs
Step-Down
4.5
18
500
TQFN-40
NCP3232N
15 A Synchronous Buck Converter with Intergrated MOSFETs
Step-Down
4.5
21
500
TQFN-40
NCP3133A
3 A Synchronous Buck Converter with Intergrated MOSFETs
Step-Down
2.9
5.5
1100
QFN-16
NCP3135
5 A Synchronous Buck Converter with Intergrated MOSFETs
Step-Down
2.9
5.5
1100
QFN-16
ON Semiconductor
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Thermal Management and System Monitoring
8 GPIOs
Extensive Portfolio
SMBus Interface
RESET I/O
Local Sensors provide temperature information at
the device location
Remote Sensors provide temperature information
of a transistor located at a different position on the
board; also includes local sensor capability
4 PWM O/Ps
System
Voltages
+12 V
+5 V
+3.3 V
8 Tach Inputs
+2.5 V
+1.8 V
Fan Controllers integrate the temperature sensor
with a fan controller/monitor
System Monitors integrate combinations of
remote and/or local temperature sensing, voltage
monitoring, fan control & monitoring, reset control,
and GPIO functions
Fan Drive and Control
• 4 PWM Fan Drive Outputs
• 8 Tach Inputs
Fan2Max
+1.5 V
+1.25 V
+0.9 V
TDM1
Temperature
• Measures 4 Temp Zones
TDM2
VBatt
TDM3
1 Local
3 Remote
THERM I/O
Bi-directional
THERM Pins
Chassis Intrusion
ALERT O/P
Supply
Range
(V)
3 - 5.5
3 - 5.5
2.8 - 5.75
3 - 3.6
3 - 3.6
3 - 3.6
3 - 3.6
3 - 3.6
2.8 - 3.6
1.4 - 2.75
3 - 5.5
3 - 5.5
3 - 5.5
3 - 3.6
3 - 3.6
Temperature
Range
(°C )
-40 to +120
-40 to +125
-40 to +125
-40 to +120
-40 to +120
-40 to +120
-40 to +120
-40 to +120
-40 to +125
-40 to +125
-55 to +125
-40 to +125
-40 to +125
-40 to +125
-40 to +125
Local
Accuracy
(°C)
±3
±2.25
±2
±1.5
±1.5
±1.5
±1
±1
±1
±1.75
±1
±3
±3
±1
±1
Interface
I2C/SMBUS
I2C/SMBUS
I2C/SMBUS
I2C/SMBUS
I2C/SMBUS
I2C/SMBUS
I2C/SMBUS
I2C/SMBUS
I2C/SMBUS
I2C/SMBUS
I2C/SMBUS
I2C/SMBUS
I2C/SMBUS
I2C/SMBUS
I2C/SMBUS
Number
of
Addresses
3
2
8
3
3
1
8
8
2
2
9
2
2
2
9
NCT375
3 - 5.5
-55 to +125
±1
SMBUS
8
NCT475
3 - 5.5
-55 to +125
±1
SMBUS
4
NCT203
1.4 - 2.75
-40 to +125
±1.75
I2C/SMBUS
1
Device
ADM1026
System ADT7462
Monitors NCT80
ADT7476
ADT7473
ADT7475
Fan
Controllers ADM1033
ADM1034
NCT72
NCT218
NCT210
Remote ADM1032
Sensors
ADT7461
ADT7481
ADT7483
Local
Sensors
Page 6
SRC
(Ω)
—
2k
—
—
3k
—
1k
1k
1.5 k
150
—
—
3k
—
—
Remote
Accuracy
±3
±2.25
—
±1.5
±1.5
±1.5
±1
±1
±1
±1
±3
±1
±1
±1
±1
Remote
Channels
2
3
—
2
2
2
1
2
1
1
2
1
1
2
2
Fan
Channels
8
4
—
3
3
3
1
2
Voltage
TACH
Monitoring
Channels Channels
8
19
8
13
2
7
4
5
4
4
1
2
GPIOs
17
8
1
—
Package
LQFP-48
LFCSP-32
TSSOP-24
QSOP-24
QSOP-16
QSOP-16
QSOP-16
QSOP-16
DFN-8, WDFN-8
WDFN-8, WLCSP-8
QSOP-16
SOIC-8, MSOP-8
SOIC-8, MSOP-8
MSOP-10
QSOP-16
DFN-8, SOIC-8,
Micro8
WLCSP-6
DFN-8, SOIC-8,
Micro8
Computing Solutions
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Integrated MOSFET and Drivers
Features
•Integrated high- and low-side MOSFETs
•Integrated bootstrap diode
•Matched of driver and MOSFETs optimize switching performance
•Higher switching frequency enables use of smaller inductor and output capacitors
•Low-side MOSFET diode emulation mode provides asynchronous operation
•65% lower BOM; 45% smaller footprint and simplified layout versus discrete solutions
VIN
3-Phase
3-Phase
Driver
DrMOS
IA Rail
IA Rail
Driver
DrMOS
VIN
Driver
DrMOS
GT Rail
2-Phase
2-Phase
GT Rail
Driver
DrMOS
Discrete
versus
Device
PWM Input
NCP5369
NCP81081
NCP5338
NCP81380
NCP81381
NCP81382
5 V Tri-state
3.3 V Tri-state
5 V Tri-state
5 V Tri-state
5 V Tri-state
5 V Tri-state
VIN Max (V) Freq Max (MHz)
25
25
20
30
30
30
Integrated
IOUT Continuous Max (A)
Package
40
40
40
15
25
35
QFN-40
QFN-40
QFN-40
QFN-32
QFN-32
QFN-28
1
1
1
2
2
2
Drivers for Discrete MOSFET Implementations
Drivers specifically designed to work with controller solutions, and optimized for 5 V or 12 V gate applications.
ON Semiconductor
Device
Drivers
NCP5901
NCP5901B
NCP81161
NCP81151
NCP81253
NCP81061
NCP81152
Single
Single
Single
Single
Single
Dual
Dual
VCC Typ (V) Integrated Bootstrap Diode
12
12
12
5
5
12
5
N
Y
Y
Y
Y
Y
Y
Zero Crossover Detection
Package
Y
Y
Y
Y
N
Y
Y
DFN-8
DFN-8
DFN-8
DFN-8
DFN-8
QFN-16
QFN-16
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MOSFETs Provide Optimized Efficiency
D1
Asymmetric Dual
•Co-packaged Power Stage to minimize board space
•Low Side MOSFET with Integrated Schottky
•Parasitic Inductances Minimized
•Optimized Devices to Reduce Power Losses
(2, 3, 4, 9)
(1) G1
S1/D2 (10)
(8) G2
S2 (5, 6, 7)
Device
Package
Config
NTMFD4C85N
PowerPhase
Asym
Dual
NTMFD4C86N
PowerPhase
Asym
Dual
NTMFD4901NF
SO-8FL
Asym
Dual
NTMFD4C87N
PowerPhase
Asym
Dual
NTMFD4C20N
SO-8FL
Asym
Dual
NTMFD4902NF
SO-8FL
Asym
Dual
NTLLD4901NF
m8-FL/
WDFN-8
Asym
Dual
Page 8
Polarity
N
N
N
N
N
N + Int Sch
N
N
N
N
N
N + Int Sch
N
N + Int Sch
VDS
(V)
30
30
30
30
30
30
30
30
30
30
30
30
30
30
Maximum Rating
RDS(ON) (mΩ)
VGS
VGS =
VGS =
(V)
10 V
4.5 V
20
3.0
4.3
20
0.8
1.2
20
5.4
8.1
20
2.1
3.0
20
6.5
10.0
20
2.4
3.5
20
5.0
7.7
20
3.1
4.3
20
7.0
10.8
20
3.4
5.2
20
6.5
10.0
20
4.1
6.2
20
20.0
30.0
20
15.0
22.0
Qg
(nC)
15.0
45.2
10.9
21.6
9.7
20.0
10.9
13.8
9.3
13.0
9.7
11.5
5.5
5.9
Qgd
(nC)
5.2
11.8
5.4
5.5
3.7
5.3
5.4
3.6
4.2
3.0
3.7
3.4
1.4
2.9
Ciss
(pF)
1960
6660
1252
3040
1150
2950
1252
1939
970
1950
1150
1510
605
645
Crss
(pF)
102
126
126
77
105
82
129
49
125
50
105
83
100
16
RG
(Ω)
1.0
1.0
1.0
1.0
0.8
0.8
1.0
1.0
1.0
1.0
0.8
0.8
0.8
0.8
Applications
Control Side
Synchronous Side
Control Side
Synchronous Side
Control Side
Synchronous Side
Control Side
Synchronous Side
Control Side
Synchronous Side
Control Side
Synchronous Side
Control Side
Synchronous Side
Computing Solutions
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MOSFETs Provide Optimized Efficiency
SO-8FL
5 x 6 mm
µ8FL
3.3 x 3.3 mm
DPAK
SOIC-8
5 x 6 mm
ON Semiconductor
Device
Package
NTMFS4C01N
SO-8FL
Configuration Polarity
VDS
(V)
Maximum Rating
RDS(ON) (mΩ)
VGS
VGS = VGS =
(V)
10 V
4.5 V
Single
N
30
20
0.9
1.2
Qg
(nC)
Qgd
(nC)
Ciss
(pF)
Crss
(pF)
RG
(Ω)
Applications
65.0
18.0
9200
231
1.0
HPPC
NTMFS4C03N
SO-8FL
Single
N
30
20
2.1
2.8
43.7
5.3
2850
72
1.0
HPPC
NTMFS4983NF
SO-8FL
Integ Sch
N
30
20
2.1
3.1
22.6
6.9
3250
90
1.0
Synchronous Side
NTMFS4C35N
SO-8FL
Single
N
30
20
3.2
4.2
15.0
5.5
2300
46
1.0
Synchronous Side
NTMFS4985NF
SO-8FL
Integ Sch
N
30
20
3.4
5.0
14.2
4.2
2100
60
1.0
Synchronous Side
NTMFS4C05N
SO-8FL
Single
N
30
20
3.4
5.0
13.0
3.0
1950
50
1.0
Synchronous Side
NTMFS4C06N
SO-8FL
Single
N
30
20
4.0
6.0
14.5
5.5
1988
71
1.0
Synchronous Side
NTMFS4C08N
SO-8FL
Single
N
30
20
5.8
8.5
8.7
2.8
1100
38
1.0
Synchronous Side
NTMFS4C09N
SO-8FL
Single
N
30
20
6.0
8.8
10.9
5.4
1252
126
1.0
Control Side
Control Side
NTMFS4C10N
SO-8FL
Single
N
30
20
7.0
10.8
9.3
4.2
970
125
1.0
NTMFS4C13N
SO-8FL
Single
N
30
20
9.1
13.8
6.6
2.7
720
95
1.0
Control Side
NTTFS4C05N
µ8-FL
Single
N
30
20
3.6
5.1
13.0
3.0
1950
50
1.0
Synchronous Side
NTTFS4C06N
µ8-FL
Single
N
30
20
4.0
6.0
14.5
5.5
1988
71
1.0
Synchronous Side
NTTFS4C08N
µ8-FL
Single
N
30
20
5.8
8.5
8.7
2.8
1100
38
1.0
Synchronous Side
NTTFS4C10N
µ8-FL
Single
N
30
20
7.4
11.0
9.3
4.2
970
125
1.0
Control Side
NTTFS4C13N
µ8-FL
Single
N
30
20
9.1
13.8
6.6
2.7
720
95
1.0
Control Side
NTTFS4C25N
µ8-FL
Single
N
30
20
17.0
26.5
4.0
1.3
455
60
1.0
Control Side
NTD4904N
DPAK
Single
N
30
20
3.7
5.5
16.8
3.0
3052
23.0
1.0
Synchronous Side
NTD4965N
DPAK
Single
N
30
20
4.7
7.0
17.5
8.5
1684
330
0.8
Synchronous Side
NTD4906N
DPAK
Single
N
30
20
5.5
8.0
11.0
1.8
1932
19
1.0
Synchronous Side
NTD4969N
DPAK
Single
N
30
20
9.0
12.0
8.7
4.0
835
163
0.7
Control Side
NTD4970N
DPAK
Single
N
30
20
11.0
15.0
7.7
3.7
743
330
0.9
Control Side
NTMS4937N
SOIC-8
Single
N
30
20
6.5
8.7
17.4
3.3
2563
25
1.0
Synchronous Side
NTMS4939N
SOIC-8
Single
N
30
20
8.4
11.0
12.4
1.9
2000
16
0.7
Synchronous Side
NTMS4916N
SOIC-8
Single
N
30
20
9.0
12.0
14.0
7.0
1468
280
0.7
Control Side
NTMS4917N
SOIC-8
Single
N
30
20
11.0
15.0
10.8
3.5
1132
216
0.7
Control Side
NTMS4800N
SOIC-8
Single
N
30
20
20.0
27.0
7.7
3.2
940
125
1.5
Control Side
NTMS4840N
SOIC-8
Single
N
30
20
24.0
36.0
4.8
1.9
520
70
2.0
Control Side
NTMD4820N
SOIC-8
Dual
N
30
20
20.0
27.0
7.7
3.2
940
125
1.5
DC-DC, Load Switch
NTMD4840N
SOIC-8
Dual
N
30
20
24.0
36.0
4.8
1.9
520
70
1.0
DC-DC, Load Switch
NTMS4177P
SOIC-8
Single
P
-30
20
12.0
19.0
29.0
13.0
3100
370
2.0
Load Switch
NTMS4176P
SOIC-8
Single
P
-30
25
18.0
30.0
17.0
8.4
1720
256
2.9
Load Switch
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Page 9
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MOSFETs Provide Optimized Efficiency
Trench 6 High Efficiency (T6HE) for Servers and
Point-of-Load Modules
•High Efficiency DC-DC Conversion
•Integrated Schottky Lowsides
•Lowest RDS(on) in the industry
Maximum Rating
RDS(ON) (mΩ)
VGS
VGS =
VGS =
(V)
10 V
4.5 V
Device
Package
Config
Polarity
VDS
(V)
Qg
(nC)
Qgd
(nC)
Ciss
(pF)
Crss
(pF)
RG
(Ω)
Applications
NTMFS4H01N
SO-8FL
Single
N
25
20
0.7
1.0
39.0
8.5
5693
212
1.2
Synchronous Side
NTMFS4H01NF
SO-8FL
Integ Sch
N
25
20
0.7
1.0
37.8
8.0
5538
175.3
1.3
Synchronous Side
NTMFS4H013NF
SO-8FL
Integ Sch
N
25
20
0.9
1.3
28.0
7.5
3780
150
1.0
Synchronous Side
NTMFS4H02N
SO-8FL
Single
N
25
20
1.4
2.2
18.0
4.2
2651
103
1.0
Synchronous Side
NTMFS4H02NF
SO-8FL
Integ Sch
N
25
20
1.4
2.3
18.7
4.3
2652
94
1.0
Synchronous Side
NTTFS4H05N
µ8-FL
Single
N
25
20
3.3
4.8
8.7
1.9
1205
45
1.0
Control Side
NTTFS4H07N
µ8-FL
Single
N
25
20
4.8
7.1
5.7
1.3
771
34
1.0
Control Side
Switching Devices
ON Semiconductor offers a range of switching devices for high speed interface in servers, desktop computing, notebook and netbook
computers. Applications include PCI Express, DisplayPort, Gigabit Ethernet and USB 2.0.
2nd LCD
Display
LCD
Panel
TMDS
DisplayPort
Switch
Docking Station Connector
VGA Switch
HDMI/DVI
Switch
LAN Switch
Internal
Graphics
Processor
Gigabit LAN
Transceiver
USB Power/
Data Switch
Stereo Switch
Mic Switch
Page 10
External
Graphics
Processor
Audio
Amp
PCIe
Switch
Processor
North Bridge
(ICH)
South Bridge
(MCH)
Codec
Server Implementation
Device
Interface
Data Rate
NCN3612B
NCN3411
NCN2612B
NS3L500
NCN1188
NS5S1153
NLAS7242
NLAS52231
NLAS4684
PCIe 3.0, DisplayPort 1.2
PCIe 3.0
PCIe 2.0, DisplayPort 1.1
Gigabit Ethernet
USB 2.0 / MHL
USB 2.0
USB 2.0
Audio
Audio
8 Gb/s
8 Gb/s
5 Gb/s
1 Gb/s
2.25 Gb/s
480 Mb/s
480 Mb/s
36 MHz
9.5 MHz
No
Quiescent
Channels Current
12
8
12
11
2
2
2
2
2
250 μA
200 μA
250 μA
250 μA
21 μA
21 μA
1 μA
1 μA
180 nA
Computing Solutions
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Advanced Load Switches
ON Semiconductor provides a comprehensive range of load switches, suitable for a variety of different power trees.
•Copackaged MOSFET plus CMOS controllers – value-added features plus high performance
•Monolithic CMOS smart load switches – value added features, low cost
•Discrete MOSFETs – simple, high performance
VCC
EN
PG
Smart Load Switch
ecoSWITCH™ Integrated
Load Switch
NCP45xxx Integrated Load Switch Feature
Thermal,
Undervoltage
&
Short-Circuit
Protection
Bandgap
&
Biases
Control
Logic
Charge
Pump
Delay and
Slew Rate
Control
SR
Type
VIN
GND
BLEED
•Simple/clean design
•No current consumption in standby power mode
•Small PCB footprint
•Low RDS(ON) due to charge pump driving NMOS
•Adjustable soft-start time (SR)
•Adjustable integrated discharge
•Fault protection
•Power rail monitoring & sequencing
VOUT
ron
(mW)
I Max
(A)
VI Min
(V)
VI Max
(V)
IQ
(mA)
Discharge
Slew Rate
(ms)
Features
Package(s)
NCP330 26 at 3.3 V
3
1.8
5.5
100
-
2000
Reverse blocking
TDFN-4
NCP333 55 at 3.3 V
1.5
1.2
5.5
1
Auto
95
-
WLCSP-4
NCP334 47 at 3.3 V
2
1.2
5.5
1
-
71
-
WLCSP-4
NCP335 47 at 3.3 V
2
1.2
5.5
1
Auto
71
-
WLCSP-4
NCP336 23 at 3.3 V
3
1.2
5.5
1
-
810
-
WLCSP-6
NCP337 23 at 3.3 V
3
1.2
5.5
1
Auto
810
-
WLCSP-6
NCP338 27 at 1.8 V
2
1
3.6
0.6
Auto
20
-
WLCSP-6
Device
NCP339
26 at 3.3 V
3
1.2
5.5
2
-
2700
Reverse blocking
WLCSP-6
NCP432
50 at 1.8 V
1.5
1
3.6
0.6
-
20
-
WLCSP-4
NCP433
50 at 1.8 V
1.5
1
3.6
0.6
Auto
20
-
WLCSP-4
NCP434 43 at 1.8 V
2
1
3.6
0.6
-
61
-
WLCSP-4
NCP435 43 at 1.8 V
2
1
3.6
0.6
Auto
61
-
WLCSP-4
NCP436
23 at 1.8 V
3
1
3.6
1
-
27
-
WLCSP-6
NCP437
23 at 1.8 V
3
1
3.6
1
Auto
27
-
WLCSP-6
NCP45524 18.0
6
0.5
13.5
-
Adj
-
Power good
DFN-8
NCP45525 18.0
6
0.5
13.5
-
Adj
Adj
-
DFN-8
NCP45560 2.4
24
0.5
13.5
-
Adj
Adj
Power good; Fault
DFN-12
NCP45540 3.3
20
0.5
13.5
-
Adj
Adj
Power good; Fault
DFN-12
NCP45541
3.3
20
0.5
13.5
-
Adj
Adj
Power good
DFN-12
NCP45520 9.5
10.5
0.5
13.5
-
Adj
-
Power good; Fault
DFN-8
NCP45521 9.5
10.5
0.5
13.5
-
Adj
Adj
Fault
DFN-8
ON Semiconductor
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Page 11
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Electronic Fuse (eFuse) for SAS, SATA, eSATA, USB
3.3 V, 5 V, and 12 V Power Bus Protection
Features
•Low RDS(ON), high operating and trip currents
(IOP, ITRIP)
•Overvoltage protection
•Precise ITRIP control
•Slew rate control
•Thermal shut-down
•EN pin for synchronizing multiple eFuses
•Outperforms poly-fuses:
–Tighter spec tolerances
–Lower resistance
–Lower trip-time
–Superior repeatability
3 V Power Bus
SATA/eSATAp
Power
3.3 V
NIS5431
3.3 V
3.3 V
GND
RLIM
ENABLE
GND
5 V Power Bus
GND
5V
RLIM
NIS5452
5V
VCC
Enable/
Fault
5V
GND
Charge
Pump
Enable
ENABLE
Source
Thermal
Shutdown
GND
Current
Limit
UVLO
Voltage
Clamp
ILimit
NIS5020*
NIS5820*
RLIM
dV/dt
Control
dV/dt
12 V
12 V
12 V
12 V Power Bus
Typical Feature Set for eFuse
GND
Input Voltage
(V)
Output Clamping
Voltage
(V)
ITRIP
Trip Current
(A)
RDS(ON)
(mW)
Auto Recovery
Option
Latching Option
Package
NIS5112
-0.6 to 18
15
2.5 (adjustable)
28
Yes
Yes
SOIC-8
NIS5132
-0.6 to 18
15
3.5 (adjustable)
44
Yes
Yes
DFN-10
NIS5232
-0.6 to 18
15
4.0 (adjustable)
44
No
Yes
DFN-10
NIS5135
-0.6 to 18
6.65
3.5 (adjustable)
68
Yes
Yes
DFN-10
NIS5452*
-0.6 to 14
5.85
3.5 (adjustable)
33
Yes
Yes
WDFN-10
NIS5431*
-0.6 to 14
3.85
2.0 (adjustable)
40
No
Yes
WDFN-10
Device
* Pending 1H16.
Page 12
Computing Solutions
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Ethernet: 10/100BASE-T, 1000BASE-TX, and Gigabit
Four Pairs, Low Capacitance Surge and ESD Protection
The 1000BASE-T or Gigabit Ethernet interface operating at higher bitrates is susceptible to ESD strikes, cable-discharge events and
lightning-induced transients. Our products help meet IEC 61000-4-5, GR-1089-CORE and other Standards.
Features
•Line-to-line capacitance < 3 pF
•Vclamp (25 A surge) < 11 V
•IEC 61000-4-2 rating > 30 kV
•No latching danger
•Surge rating maintained to 125°C
Typical Application
1000BASE-T
ETHERNET TRANSCEIVER
TPONA
A+
VDD
C5
ALC03
TPONB
TVS8818
TPONC
BLC03
8
C3
C6
1
TPOPC
B+
VDD
C+
RJ45
C2
TRANSFORMER
TPOPB
8
1
VDD
C7
CLC03
TPOPD
C4
TPOND
8
1
Benefits
•Compatible with Gb Ethernet and beyond
•Enhanced protection for downstream electronics
•Accommodates operating transients above 3.3 V
•Small form-factor allows integration into connectors
C1
8
1
TPOPA
D+
VDD
C8
DLC03
Line Side : LC03-6 (optional)
Transformer Side: TVS8818
Protection against metallic (transverse) strikes
1
2
TVS8818
5
Voltage (V), Current (A)
4
30
RJ-45 Connector
3
6
Flow Through
Routing
7
25
8/20 μs
Surge Current
15
ON Semiconductor
Voltage
10
5
0
-10
8
Competitor
Voltage
20
0
10
20
30
Time (μs)
40
50
60
Line-to-Line Surge
Transient Voltage Suppressors
Device
LC03-6
TVS4201
TVS8814
TVS8818
NUP4114H
SRDA3.3
SRDA05
VDC Max
(V)
6.7
5.0
3.0
3.0
5.0
3.3
5.0
Line
Transient
Max
(V)
7.0
6.0
3.2
3.2
5.0
5.0
7.0
Surge IPP,
8/20 ms
(A)
100
25
35
35
12*
25
23
Typical
Line-Line
Capacitance
(pF)
8.0
1.5
1.5
1.5
0.4
4.0
5.0
ESD
Contact
Rating
(kV)
±30
±30
±30
±30
±13
±8
±8
Package
SOIC-8
TSOP-6
UDFN-8
UDFN-10
TSOP-6
SOIC-8
SOIC-8
* On Pin 5.
ON Semiconductor
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Page 13
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USB 3.x Type A Connector
Two SuperSpeed Pairs, One High Speed Pair, V CC , Low Capacitance ESD Protection
Key Requirement
•Cap < 0.7 pF
I/O
1
I/O
2
USB 3.0 Type A
Connector
USB 3.0/3.1 Type A
Connetcor
StdA_SSTX+
Features
•0.35 pF
•Flow through routing
•Industry leading low clamping voltage
versus competitors
StdA_SSTX+
Vbus
Vbus
StdA_SSTX-
ESD8704
ESD8116
D-
D-
GND_DRAIN
I/O . . . . . I/O I/O I/O
3
(N-2) (N-1) N
ESD7L5.0
Top layer
Other layer
GND_DRAIN
D+
D+
StdA_SSRX+
StdA_SSRX+
GND
GND
StdA_SSRX-
StdA_SSRX-
ESD8704 — 0.35 pF, 2 Layer Routing
(ESD8704; ESD7L5.0 for D+, D- Lines)
=
Device
ESD8704*
ESD7L
ESD8504
ESD8104
ESD8116
ESD8011
ESD8101
ESD8111
ESD8006
StdA_SSTX-
ESD8116 — 0.30 pF, 1 Layer Routing
Interface
Data Lines
Capacitance
(pF)
Package
Size
(mm)
USB 3.x
USB 3.x
USB 3.0
USB 3.0
USB 3.0
USB 3.x
USB 3.x
USB 3.x
USB 3.0
2 Pair (Tx, Rx)
1 Pair (D+/-)
2 Pair (Tx, Rx)
2 Pair (Tx, Rx)
3 Pair (Tx, Rx, D+/-)
Single Line
Single Line
Single Line
3 Pair (Tx, Rx, D+/-)
0.35
0.5
0.4
0.3
0.3
0.10
0.20
0.20
0.25
UDFN-10
SOT-723
UDFN-10
UDFN-10
UDFN-8
X3DFN-2
DSN-2
WLCSP-2
UDFN-8
2.5 x 1.0
1.2 x 1.2
2.5 x 1.0
2.5 x 1.0
2.0 x 1.2
0.62 x 0.32
0.43 x 0.23
0.6 x 0.3
3.3 x 1.0
* Pending 1H16.
Without ESD
Page 14
USB 3.0 @ 5 Gb/s
With ESD
Computing Solutions
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USB 3.x Type C Connector
Key Requirement
•Cap < 0.5 pF
Features
•0.35 pF
•Flow through routing
•Industry leading low
clamping voltage versus
competitors
Type-C Hybrid
Top Mount Connector
Type-C Hybrid
Top Mount Connector
GND
GND
TX1+
TX1+
TX1ESD8704
ESD7104
TX1-
Vbus
CC1
CC1
D+
D+
D-
D-
SBU1
SBU1
Vbus
Vbus
RX2-
RX2-
= ESD7471/
ESD8472
RX2+
Top Layer
Vbus
ESD8704
RX2+
GND
Top Layer
GND
GND
GND
RX1-+
RX1-+
RX1ESD8704
ESD7104
RX1ESD8704
SBU1
SBU1
Vbus
Vbus
D-
D-
D+
D+
Vbus
Vbus
CC1
CC1
TX2-
TX2-
= ESD7471/
ESD8472
TX2+
Bottom Layer
TX2+
Bottom Layer
GND
GND
ESD9X
Device
ESD8704*
ESD7104
ESD8011
ESD8101
ESD8111
ESD8472
ESD7471
Data Lines
Capacitance
(pF)
Package
Size
(mm)
2 Pair (Tx, Rx)
2 Pair (CC, SBU, D+/-)
Single Line (Tx, Rx)
Single Line (Tx, Rx)
Single Line (Tx, Rx)
Single Line (CC, SBU, D+/-)
Single Line (CC, SBU, D+/-)
0.37
0.30
0.10
0.20
0.20
0.20
0.24
UDFN-10
UDFN-10
X3DFN-2
DSN-2
WLCSP-2
X3DFN-2
XDFN-2 (SOD-882)
2.5 x 1.0
2.5 x 1.0
0.62 x 0.32
0.43 x 0.23
0.6 x 0.3
0.62 x 0.32
1.0 x 0.6
= Top Layer
= Bottom Layer
* Pending 1H16.
Without ESD
With ESD
USB3.1 Eye Diagram with and without ESD8704. 10 Gb/s
ON Semiconductor
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Page 15
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USB 2.0
One High Speed Pair, V CC , Low Capacitance ESD Protection
Key Requirement
•Cap < 5 pF
I/O 1 I/O 2 I/O 3 I/O 4
Features
•0.35 - 3.0 pF
•Multi-part solutions available
•Industry leading low clamping voltage
Device
NUP2114UPX
NUP2114UCM
NUP4114UPX
NUP4114UCL
NUP4114H
TVS4201MR6
ESD7L5.0
ESD8351MUT
ESD8351P2T
ESD9L5.0
VBUS
D+
DGnd
USB
Host
Controller
NUP2114
=
Data Lines
Capacitance
(pF)
Package
Size
(mm)
1 Pair (D+/-) + Vbus
1 Pair (D+/-) + Vbus
2 Pair (D+/-) + Vbus
2 Pair (D+/-) + Vbus
2 Pair (D+/-) + Vbus
2 Pair (D+/-) + Vbus
2
1
1
1
0.8
0.8
0.5
0.5
0.5
3
0.5
0.37
0.37
0.5
SOT-553
TSOP-6
SOT-563
SC-88
TSOP-6
TSOP-6
SOT-723
X3DFN-2
SOD-923
SOD-923
1.2 x 1.6
3.0 x 2.75
1.6 x 1.6
2.0 x 2.1
3.0 x 2.75
3.0 x 2.75
1.2 x 1.2
0.6 x 0.3
1.0 x 0.6
1.0 x 0.6
VBUS
D+
DGnd
USB
Host
Controller
NUP4114
VBUS
D+
DGnd
One High Speed Pair, V CC , Common Mode Filter + ESD Protection
Key Requirement
•Cap < 5 pF
•Common Mode Filtering
Micro USB
Connector
Features
•0.5 - 0.8 pF
•Integrated EMI suppression with ESD protection
•Industry leading low clamping voltage
Device
EMI2121
Pairs
Capacitance
@ 2.5 V (pF)
1
0.9
GND
EMI2121
D+
D-
CM Attenuation DM Bandwidth
@ 800 MHz (–dB) F3dB (GHz)
Package
–25
2.5
ID
WQFN
VBUS
Size
(mm)
Top layer
Other layer
2.2 x 2.0 x 0.75
0
-5
-10
dB
-15
-20
-25
-30
USB 2.0 @ 480 Mb/s
Page 16
-35
1.E+06
Suppresses Common Mode Noise
Deeper than Competing Passive Solution
Common
Mode
Differential
Mode
1.E+07
1.E+08
1.E+09
Frequency
Computing Solutions
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Thunderbolt
Four High Speed Pairs, up to Six Additional Lines, Low Capacitance ESD
Key Requirement
•Capacitance < 0.4 pF
Thunderbolt Connetctor
Top Layer
GND
Features
•Capacitance of 0.35 pF or lower
•Integrated solution in 2.0 x 1.2 mm package
•Grounds between pairs to reduce cross-talk
•Flow-through routing
•Industry leading clamping voltage
I/O
1
I/O
2
I/O
4
I/O
5
I/O
7
ESD8116
ML0+
ML0–
GND
ML1+
ML1–
GND
ML2+
ML2–
GND
I/O
8
ESD9X
Thunderbolt Connetctor
Bottom Layer
Common GND = Pins 2, 3
Hot Plug Detect
=
CONFIG1
ESD8116
ML3+
Device
ESD8006
ESD8116
ESD8011
ESD8101
Data Lines
Capacitance
(pF)
Package
Size
(mm)
3 Pair
3 Pair
Single Line
Single Line
0.25
0.30
0.10
0.20
UDFN-8
UDFN-8
X3DFN-2
DSN-2
3.3 x 1.0
2.0 x 1.2
0.62 x 0.32
0.43 x 0.23
ML3–
GND
GND
CONFIG2
Aux+
Aux–
PWR
Top layer
Bottom layer
ESD9X
Without ESD8116
Thunderbolt @ 10 Gb/s
ON Semiconductor
With ESD8116
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Page 17
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HDMI, Display Port
Four High Speed Pairs, Up to Six Additional Interface Lines, Low Capacitance ESD
Key Requirement
•Cap < 0.5 pF
I/O
1
I/O
2
I/O . . . . . I/O I/O I/O
3
(N-2) (N-1) N
Features
•0.3 pF ESD protection
•Flow through routing in high speed lines
•Industry leading low clamping voltage
HDMI Type-A
Connector
D2+
=
Capacitance
(pF)
Package
Device
Data Lines
ESD8104
ESD8118
ESD8040
NUP4114UPX
NUP4114UCL
NUP4114H
4 (TMDS)
8 (TMDS)
14 (TMDS + Low Speed + Power)
5 (4 Low Speed + Power)
5 (4 Low Speed + Power)
5 (4 Low Speed + Power)
ESD8040
2.5 x 1.0
3.2 x 1.2
5.5 x 1.5
1.6 x 1.6
2.0 x 2.1
3.0 x 2.75
D2+
GND
D2D1+
D2D1+
GND
GND
D1-
D1-
D0+
D0+
GND
GND
D0-
D0-
CLK+
CLK+
GND
GND
CLK-
CLK-
CEC
CEC
N/C (or HEC_DAT - HDMI1.4)
HEC DATA
SCL
SCL
SDA
SDA
GND
GND
5V
5V
HPD (and HEC_DAT - HDMI1.4)
HPD
•MediaGuard fully integrated solution
•Includes ethernet protection (HDMI1.4)
•Backdrive current protection
NUP4114
UDFN-10
UDFN-10
UDFN-18
SOT-563
SC-88
TSOP-6
HDMI Type-A Connector
GND
ESD8118
0.3
0.3
0.3
0.5
0.5
0.5
Size
(mm)
ESD8118
Top layer
Other layer
ESD8040
Without ESD
With ESD
HDMI 2.0 Eye Diagram with and without ESD8104. 6 Gb/s
Page 18
Computing Solutions
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Serial EEPROMs
Features
•Broad density range: 1 kb to 2 Mb
•Wide operating Vcc range: 1.8/1.7 V to 5.5 V
•High endurance: 1 million program/erase cycles
•Wide temperature range: industrial and extended
EasyPRO™ is a user-friendly, portable
programming tool for ON Semiconductor
serial EEPROMs (I2C, SPI, Microwire)
EEPROMs
Data
Transmission
Standard
I2C
SPI
Microwire
Device
Density
Organization*
VCC Min
(V)
VCC Max
(V)
fCLK Max
(MHz)
Package(s)
CAT24M01
CAT24C512
CAT24C256
CAT24C128
CAT24C64
CAT24C32
CAT24C16
CAT24C08
CAT24C04
CAT24C02
CAT25M02
CAT25M01
CAT25512
CAT25256
CAT25128
CAT25640
CAT25320
CAT25160
CAT25080
CAT25040
CAT25020
CAT25010
CAT93C86
CAT93C86B
CAT93C76
CAT93C76B
CAT93C66
CAT93C56
CAT93C46
CAT93C46B
1 Mb
512 kb
256 kb
128 kb
64 kb
32 kb
16 kb
8 kb
4 kb
2 kb
2 Mb
1 Mb
512 kb
256 kb
128 kb
64 kb
32 kb
16 kb
8 kb
4 kb
2 kb
1 kb
16 kb
16 kb
8 kb
8 kb
4 kb
2 kb
1 kb
1 kb
128k x 8
64k x 8
32k x 8
16k x 8
8k x 8
4k x 8
2k x 8
1k x 8
512 x 8
256 x 8
256k x 8
128k x 8
64k x 8
32k x 8
16k x 8
8k x 8
4k x 8
2k x 8
1k x 8
512 x 8
256 x 8
128 x 8
2k x 8 / 1k x 16
2k x 8 / 1k x 16
1k x 8 / 512 x 16
1k x 8 / 512 x 16
512 x 8 / 256 x 16
256 x 8 / 128 x 16
128 x 8 / 64 x 16
128 x 8 / 64 x 16
1.8
1.8
1.8
1.8
1.7
1.7
1.7
1.7
1.7
1.7
1.7
1.8
1.8
1.8
1.8
1.8
1.8
1.8
1.8
1.8
1.8
1.8
1.8
1.8 / 1.65
1.8
1.8 / 1.65
1.8
1.8
1.8
1.8 / 1.65
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
5.5
1
1
1
1
1
1
0.4
0.4
0.4
0.4
10
10
20
20
20
20
20
20
20
20
20
20
3
4
3
4
2
2
2
4
SOIC-8, TSSOP-8, UDFN-8
SOIC-8, TSSOP-8, UDFN-8
SOIC-8, TSSOP-8, UDFN-8
SOIC-8, TSSOP-8, UDFN-8
SOIC-8, TSSOP-8, UDFN-8, WLCSP-4
SOIC-8, TSSOP-8, UDFN-8, WLCSP-4, WLCSP-5
SOIC-8, TSSOP-8, UDFN-8, TSOT23-5, WLCSP-4, WLCSP-5
SOIC-8, TSSOP-8, UDFN-8, TSOT23-5, WLCSP-4, WLCSP-5
SOIC-8, TSSOP-8, UDFN-8, TSOT23-5, WLCSP-4, WLCSP-5
SOIC-8, TSSOP-8, UDFN-8, TSOT23-5, WLCSP-4, WLCSP-5
SOIC-8
SOIC-8, TSSOP-8
SOIC-8, TSSOP-8, UDFN-8
SOIC-8, TSSOP-8, UDFN-8
SOIC-8, TSSOP-8, UDFN-8
SOIC-8, TSSOP-8, UDFN-8
SOIC-8, TSSOP-8, UDFN-8
SOIC-8, TSSOP-8, UDFN-8
SOIC-8, TSSOP-8, UDFN-8
SOIC-8, TSSOP-8, UDFN-8
SOIC-8, TSSOP-8, UDFN-8
SOIC-8, TSSOP-8, UDFN-8
SOIC-8
SOIC-8, TSSOP-8, UDFN-8
SOIC-8, TSSOP-8
SOIC-8, TSSOP-8, UDFN-8
SOIC-8, TSSOP-8
SOIC-8, TSSOP-8
SOIC-8, TSSOP-8
SOIC-8, TSSOP-8, UDFN-8
* Organization for Microwire devices is selectable.
Application Specific EEPROMs
Data
Transmission
Standard
Device
Density
Organization
VCC Min
(V)
VCC Max
(V)
fCLK Max
(MHz)
I2C
I2C
2
I C/SMBus
CAT24C208
CAT34C04*
CAT34TS04
8 kb
4 kb
4 kb
1024 x 8
512 x 8
512 x 8
2.5
1.7
2.2
5.5
5.5
5.5
0.4
1
1
I2C
CAT34C02
2 kb
256 x 8
1.7
5.5
0.4
I2C/SMBus
CAT34TS02
2 kb
256 x 8
3.0
3.6
0.4
Package(s)
Notes
SOIC-8
UDFN-8
TDFN-8, UDFN-8
UDFN-8, TDFN-8,
TSSOP-8
TDFN-8, UDFN-8
VESA™ dual-port serial EEPROM
Serial Presence Detect (SPD) I2C EEPROM for DDR4 DIMM
4 kb SPD EEPROM w/ Temperature Sensor for DDR4 DIMM
Serial Presence Detect (SPD) I2C EEPROM for DDR3 DIMM
2 kb SPD EEPROM w/ Temperature Sensor for DDR3 DIMM
* Pending 1H16.
ON Semiconductor
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Page 19
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Clock Synthesizers for High Performance Computing
Features
•Uses 25 MHz fundamental mode parallel resonant crystal
•PCI-e Gen 1,2 & 3 jitter complaint HCSL differential outputs
•NB3N50134 features configurable spread spectrum outputs
•NB3N51044 features individual OE control signal for each output, PLL bypass
mode and an Input multiplexer
•NB3N51054 features I2C interface for OE control and configurable spread
spectrum outputs
•3.3 V supply
VDD
X1/CLK
25 MHz Clock or
Crystal
X2
Clock Buffer
Crystal Oscillator
Charge
Pump
Phase
Detector
HSCL
Output
VCO
HSCL
Output
M
GND
S0
S1
OE
CLK0
CLK0
CLK1
CLK1
IREF
NB3N5573 Simplified Logic Diagram
Number
of Inputs
Input Type
fin Typ
(MHz)
Number
of Outputs
Output
Type
fout Typ
(MHz)
Spread Spectrum
Outputs
Package
NB3N3002
1
Crystal; LVCMOS; LVTTL
25
1
HCSL
25; 100; 125; 200
No
TSSOP-16
NB3N5573
1
Crystal; LVCMOS; LVTTL
25
2
HCSL
25; 100; 125; 200
No
TSSOP-16
NB3N51032
1
Crystal; LVCMOS; LVTTL
25
2
HCSL
25; 100; 125; 200
Yes
TSSOP-16
NB3N51034
1
Crystal; LVCMOS; LVTTL
25
4
HCSL
100: 200
Yes
TSSOP-20
NB3N51044
2
Crystal; LVCMOS; LVTTL
25
4
HCSL
100: 125
No
TSSOP-28
NB3N51054
1
Crystal; LVCMOS; LVTTL
25
4
HCSL
100
Yes
TSSOP-24
Device
Page 20
Computing Solutions
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Fanout Buffers for High Performance Computing
Features
•DC up to 400 MHz
•Accepts LVPECL, LVDS, HCSL, and single-ended inputs
•Typical input clock frequencies: 100, 133, 156.25, 166, 322.26, or 400 MHz
•Typical propagation delay: 800 ps
•HCSL differential outputs
•Integrated 50 Ω input termination resistors
•IREF pin enables setting of output drive
•Additive phase jitter 0.1 ps typical @ 100 MHz; PCI-e Gen 3 jitter complaint
•Additive phase jitter 80 fs maximum @ 156.25 MHz with NB3L208K, NB3L204K,
NB3L202K; DB800H, DB400H, DB200H compliant
Q0
Q0
VTCLK
Q1
Q1
CLK
CLK
Q19
Q19
VTCLK
Q20
VCC
IREF
GND
Q20
RREF
NB3N121K Logic Diagram
Ratio
Additive
tJitter(RMS) Typ
(ps)
tskew(o-o) Max
(ps)
tpd Typ
(ns)
tR & tF Max
(ps)
fmaxClock Typ
(MHz)
Package
NB3L202K*
1:2
0.046
30
1
125
350
QFN-16
NB3L204K*
1:4
0.046
30
1
125
350
QFN-24
NB3N106K
1:6
0.1
100
0.8
400
400
QFN-24
NB3L208K
1:8
0.046
30
1
125
350
QFN-32
NB3N108K
1:8
0.1
100
0.8
400
400
QFN-32
NB3N111K
1:10
0.1
100
0.8
400
400
QFN-32
NB4N111K
1:10
<1
100
0.8
700
400
QFN-32
NB3N121K
1:21
0.1
100
0.8
700
400
QFN-52
NB4N121K
1:21
<1
50
0.8
700
200
QFN-52
Device
* Pending 1H16.
ON Semiconductor
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Page 21
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Computing Clock for Graphics
P1P8160A Features
•Provides reference clock to the GPU & reduces EMI in the GDDR interface
•Input frequency 27 MHz; crystal or reference clock
•Output frequency 100 MHz spread spectrum clock; 27 MHz RefOUT
•Two tri-level logic pins for selecting eight frequency deviations along with SSOFF
•Modulation rate at 100 MHz: 32 kHz
•Low cycle-cycle & long term jitter
•Supply voltage: 3.3 V ±10%
•WDFN-10 package
D-Sub
D-Sub
D-Sub
D-Sub
GPU
Core
SS_clock
Non_SS_clock
27 MHz
DDR
Controller
SS_clock
PLL
100 MHz_SS_clock
P1P8160A
27 MHz
Radeon HD 6000/5000 Series
P1P8160A for AMD Graphics Card Application
Page 22
Computing Solutions
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Zero Delay Buffers Compliant with DB Specifications
Features
•Differential SRC clock support
•NB3N1900K, NB3N1200K: DB1900Z and DB1200Z compliant with 19 and 12 output pairs respectively
•NB3W1200L, NB3W800L: DB1200ZL and DB800ZL compliant with 12 and 8 low power NMOS push-pull
output pairs respectively
•NB3W1900L: 19 low power NMOS push-pull output pairs
•Optimized for 100 MHz and 133 MHz to meet PCIe* Gen 2/Gen 3 and Intel QPI phase jitter specifications
•Spread spectrum compatible for low EMI
•Pseudo-external fixed-feedback for low input-to-output delay variation
•Individual OE control pin for each output
•SMBUS programmability for power down mode, PLL BW modes, PLL/Bypass mode & frequency selection
OE_[11:0]#
12
FB_OUT*
FB_OUT#*
SSC Compatible
PLL
CLK_IN
DIF_[11:0]
MUX
DIF_[11:0]#
CLK_IN#
100M_133M#
HBW_BYPASS_LBW#
SA_0
Control
Logic
SA_1
PWRGD/PWRDN#
SDA
SCL
* FB_OUT pins are for NB3N1200K only; they are NC for NB3W1200L
** IREF pin is for NB3N1200K only; it is NC for NB3W1200L
IREF**
RREF
NB3N1200K Simplified Block Diagram
Ratio
Output
tJitter(Cy-Cy) Typ
(ps)
tskew(I-o) Max
(ps)
NB3W800L
1:8
Low power NMOS push-pull
34
±100
50
4
QFN-48
NB3N1200K
1:12
HCSL
50
±100
50
4
QFN-64
NB3W1200L
1:12
Low power NMOS push-pull
50
±100
50
4
QFN-64
NB3N1900K
1:19
HCSL
50
±100
65
4
QFN-72
NB3W1900L
1:19
HCSL
50
±100
85
4
QFN-72
Device
ON Semiconductor
tskew(o-o) Max Edge Rate Max
(ps)
(V/ns)
Package
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Page 23
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