Power Management
189
Power Management
55 150 5 11 BUK96150-55A BUK92150-55A BUK95150-55A
75 9 10 75 BUK7609-75A BUK7509-75A
191
Power Management
Automotive MOSFETs
types in bold red represent new products
www.semiconductors.philips.com
190
General Purpose Automotive (GPA) TrenchMOS
VDS
(V)
RDS(ON)
(mΩ)
@VGS
(V)
ID(max)
@ 25°C
(A)
SC73
(SOT223) D2PAK
(SOT404)
DPAK
(SOT428)
TO220
(SOT78)
SOT186A
(isol TO220AB)
SOT226
(I2PAK)
30 5 10 75 BUK7605-30A BUK7505-30A
30 5 5 75 BUK9605-30A BUK9505-30A
30 13 10 55 BUK6213-30A
30 13 5 55 BUK9213-30A
30 14 10 55 BUK9214-30A
40 4 10 75 BUK7604-40A BUK7504-40A BUK7E04-40A
40 4 5 75 BUK9604-40A BUK9504-40A BUK9E04-40A
40 13 10 55 BUK7213-40A
55 6 10 75 BUK7606-55A BUK7506-55A
55 6 5 75 BUK9606-55A BUK9506-55A BUK9E06-55A
55 8 10 75 BUK7608-55A BUK7508-55A
55 8 5 75 BUK9608-55A BUK9508-55A
55 9 10 75 BUK7609-55A BUK7509-55A
55 9 5 75 BUK9609-55A BUK9509-55A
55 10 5 75 BUK9610-55A BUK9510-55A
55 10 10 75 BUK7610-55AL BUK7510-55AL
55 11 10 75 BUK7611-55A BUK7511-55A
55 11 5 75 BUK9611-55A BUK9511-55A
55 14 10 73 BUK7614-55A BUK7514-55A
55 14 5 73 BUK9614-55A BUK9514-55A
55 15 10 55 BUK7215-55A
55 15 5 55 BUK9215-55A
55 16 10 66 BUK7616-55A BUK7516-55A
55 16 5 66 BUK9616-55A BUK9516-55A
55 18 5 58 BUK9618-55A BUK9518-55A
55 19 5 55 BUK9219-55A
55 20 10 54 BUK7620-55A BUK7520-55A
55 20 10 29 BUK7720-55A
VDS
(V)
RDS(ON)
(mΩ)
@VGS
(V)
ID(max)
@ 25°C
(A)
SC73
(SOT223) D2PAK
(SOT404)
DPAK
(SOT428)
TO220
(SOT78)
SOT186A
(isol TO220AB)
SOT226
(I2PAK)
55 20 5 54 BUK9620-55A BUK9520-55A
55 22 10 48 BUK7222-55A
55 22 5 48 BUK9222-55A
55 24 10 47 BUK7624-55A BUK7524-55A
55 24 5 47 BUK9624-55A BUK9524-55A
55 25 10 39 BUK7225-55A
55 25 5 39 BUK9225-55A
55 28 10 42 BUK7628-55A BUK7528-55A
55 28 5 42 BUK9628-55A BUK9528-55A
55 30 10 38 BUK7230-55A
55 30 5 38 BUK9230-55A
55 32 5 12 BUK9832-55A
55 35 10 35 BUK7635-55A BUK7535-55A
55 35 10 20 BUK7735-55A
55 35 5 35 BUK9635-55A BUK9535-55A
55 37 10 32 BUK7237-55A
55 37 5 32 BUK9237-55A
55 45 5 28 BUK9245-55A
55 75 10 20 BUK7675-55A BUK7575-55A
55 75 5 20 BUK9675-55A BUK9575-55A
55 77 10 18 BUK7277-55A
55 77 5 18 BUK9277-55A
55 80 5 7 BUK9880-55A
55 150 10 11 BUK78150-55A BUK76150-55A BUK72150-55A BUK75150-55A
55 150 5 5 BUK98150-55A
75 9 5 75 BUK9609-75A BUK9509-75A
75 23 10 53 BUK7623-75A BUK7523-75A
75 23 5 53 BUK9623-75A BUK9523-75A
75 26 10 46 BUK7226-75A
75 26 5 46 BUK9226-75A
100 15 10 75 BUK7615-100A BUK7515-100A
100 15 5 75 BUK9615-100A BUK9515-100A
100 20 10 63 BUK7620-100A BUK7520-100A
100 20 5 63 BUK9620-100A BUK9520-100A
100 28 10 49 BUK7628-100A BUK7528-100A
100 28 5 49 BUK9628-100A BUK9528-100A
100 35 10 41 BUK7635-100A BUK7535-100A
100 35 5 41 BUK9635-100A BUK9535-100A
100 40 10 37 BUK7640-100A BUK7540-100A
100 40 10 34 BUK7240-100A
100 40 5 37 BUK9640-100A BUK9540-100A
100 40 5 34 BUK9240-100A
100 60 10 26 BUK7660-100A BUK7560-100A
100 60 5 26 BUK9660-100A BUK9560-100A
100 75 10 23 BUK7675-100A BUK7275-100A BUK7575-100A
100 75 5 7 BUK9875-100A
100 75 5 23 BUK9675-100A BUK9275-100A BUK9575-100A
100 180 5 5 BUK98180-100A
100 180 5 11 BUK96180-100A BUK95180-100A
MSD994
= standard level TrenchMOS
= logic level TrenchMOS
Automotive qualified
MOSFET
RDS(ON) in m½ where R = decimal point
!" #$
%
&
'
(
)
= DPAK (SOT428)
= TO220AB (SOT78B)
=D
2PAK (SOT404)
= SOT223
= SOT226
*
= General purpose Automotive TrenchMOS
= High Performance Automotive TrenchMOS
Related literature
Title Order code
Automotive TrenchMOSTM part numbering
In-Vehicle Power Brochure - Powering your
automotive applications
9397 750 10255
Power MOSFET Single-shot and Repetitive
Avalanche Ruggedness Rating
AN10273
Naked Power Die Program 9397 750 11886
Why choose
Philips Semiconductors?
Automotive MOSFETs
*Leading edge TrenchMOS™ technology used for all devices, giving
outstanding performance
*Wide variety of operating voltages, RDS(ON) values, drain current
ratings, power handling and package types - allows you more
choice and flexibility
*Suitable for a wider variety of automotive switching applications
*True Logic Level and Standard Level devices available across the
range
*Excellent thermal performance eases route to SMD packages
Automotive MOSFETs
Why choose
Philips Semiconductors?
MSD994
= standard level TrenchMOS
= logic level TrenchMOS
Automotive qualified
MOSFET
RDS(ON) in m½ where R = decimal point
!" #$
%
&
'
(
)
= DPAK (SOT428)
= TO220AB (SOT78B)
=D
2PAK (SOT404)
= SOT223
= SOT226
*
= General purpose Automotive TrenchMOS
= High Performance Automotive TrenchMOS
193
Power Management
Automotive MOSFETs
*Leading edge TrenchMOS™ technology used for all devices, giving
outstanding performance
*Wide variety of operating voltages, RDS(ON) values, drain current
ratings, power handling and package types - allows you more
choice and flexibility
*Suitable for a wider variety of high power automotive applications
*True Logic Level and Standard Level devices available across the
range
*Continued package and process developments mean more power
in smaller packages
*Excellent thermal performance eases route to SMD packages
www.semiconductors.philips.com
192
High Performance Automotive (HPA) TrenchMOS TrenchPLUS - Automotive MOSFETs with
protection features
types in bold red represent new products
VDS
(V)
RDS(ON)
(mΩ)
@VGS
(V)
ID(max)
@ 25°C
(A)
D2PAK
(SOT404)
DPAK
(SOT428)
LFPAK
(SOT669)
TO220
(SOT78)
SOT226
(I2PAK)
30 2.7 10 75 BUK762R7-30B BUK752R7-30B BUK7E2R7-30B
30 2.8 5 75 BUK962R8-30B BUK952R8-30B
30 4 5 75 BUK9E04-30B
30 7 10 75 BUK7607-30B BUK7207-30B BUK7507-30B
30 7 5 75 BUK9607-30B BUK9207-30B BUK9507-30B
40 3.1 10 75 BUK763R1-40B BUK753R1-40B
40 3.2 5 75 BUK963R2-40B BUK953R2-40B BUK9E3R2-40B
40 4.3 10 75 BUK764R3-40B BUK754R3-40B
40 4.4 5 75 BUK964R4-40B BUK954R4-40B BUK9E4R4-40B
40 5.2 10 75 BUK765R2-40B BUK755R2-40B
40 6 5 75 BUK9606-40B BUK9506-40B
40 8 10 75 BUK7608-40B BUK7208-40B BUK7508-40B
40 9 5 75 BUK9609-40B BUK9209-40B BUK9509-40B
55 4 10 75 BUK764R0-55B BUK754R0-55B
55 4.2 5 75 BUK964R2-55B BUK954R2-55B
55 6 10 75 BUK7606-55B BUK7506-55B
55 6 10 75 BUK9606-55B BUK9506-55B BUK9E06-55B
55 7 10 75 BUK7607-55B BUK7507-55B
55 8 5 75 BUK9608-55B BUK9508-55B
55 11 10 75 BUK7611-55B BUK7511-55B BUK7E11-55B
55 12 10 55 BUK7212-55B
55 12 5 75 BUK9612-55B BUK9212-55B BUK9512-55B
55 19 5 40 BUK9Y19-55B
55 40 5 20 BUK9Y40-55B
75 6 10 75 BUK7606-75B BUK7506-75B
75 6 5 75 BUK9606-75B BUK9506-75B
75 13 10 60 BUK7613-75B BUK7513-75B
75 14 10 55 BUK7214-75B
75 16 5 60 BUK9616-75B BUK9516-75B
75 17 5 55 BUK9217-75B
75 30 5 30 BUK9Y30-75B
100 10 10 75 BUK7610-100B BUK7510-100B
100 10 5 75 BUK9610-100B BUK9510-100B
100 26 10 49 BUK7626-100B BUK7526-100B
100 27 10 48 BUK7227-100B
100 29 5 46 BUK9629-100B BUK9529-100B
100 30 5 47 BUK9230-100B
Related literature
Title Order code
In-Vehicle Power Brochure - Powering your
automotive applications
Power MOSFET Single-shot and Repetitive Avalanche
Ruggedness Rating
Naked Power Die Program
High Current Testing of SOT78 and SOT404
High Performance MOSFETs for automotive systems
HPA TrenchMOS™ in LFPAK
9397 750 10255
AN10273
9397 750 11886
9397 750 12572
9397 750 11136
9397 750 13798
types in bold red represent new products
VDS
(V)
RDS(ON)
(mΩ)
@VGS
(V)
ID
(max)
@ 25°C
(A)
Temp
Sense
Gate
Source
Clamps
Gate
Drain
Clamps
Current
Sensing
Gate
Resistor D2PAK 7-pin
(SOT427)
D2PAK 5-pin
(SOT426)
TO220
(SOT78)
SOT263B-01
(5-pin TO220)
34 6 10 75 • • BUK7L06-34ARC
34 11 10 75 • • BUK7L11-34ARC
40 4.1 10 75 • BUK714R1-40BT BUK794R1-40BT
40 5 10 75 • • BUK7105-40AIE BUK7905-40AIE
40 5 10 75 • • BUK7105-40ATE BUK7905-40ATE
40 5 10 75 • BUK7905-40AI
40 6 10 75 • • • BUK7C06-40AITE
40 7 5 75 • • • BUK9107-40ATC
40 7 10 75 • • • BUK7107-40ATC BUK7907-40ATC
40 7 5 75 • • • BUK9907-40ATC
40 8 10 75 • • BUK7108-40AIE BUK7908-40AIE
48 20 5 52 • • • BUK9120-48TC
55 7 10 75 • • BUK7107-55AIE BUK7907-55AIE
55 7 10 75 • • BUK7107-55ATE BUK7907-55ATE
55 7 5 75 • • BUK9107-55ATE BUK9907-55ATE
55 8 10 75 • • BUK7C08-55AITE
75 9 10 75 • • BUK7109-75ATE BUK7909-75ATE
75 9 10 75 • • BUK7109-75AIE BUK7909-75AIE
75 10 10 75 • • • BUK7C10-75AITE
Why choose
Philips Semiconductors?
MSD993
= standard level TrenchMOS
= logic level TrenchMOS
Automotive qualified
MOSFET
RDS(ON) in m½
! "
#
$
=5pin D2PAK (SOT426)
= SOT263B-01
=7pin D2PAK (SOT427)
= SOT78C
%&
$
'
(
)
= Gate-Drain and Gate-Source clamps
= ESD protection
= Current sensor
= Gate resistor
= Temperature sensor
*
= General purpose Automotive TrenchMOS
= High Performance Automotive TrenchMOS
Automotive TrenchPLUS part numbering
I/O
A/D
MICROCONTROLLER
MSD835
4
1
2
5
3
LOAD
Automotive TrenchPLUS application diagram
Automotive TrenchPLUS MOSFETs
*TrenchPLUS provides semi-protected power solutions at lower
cost than full SMART power devices
*Philips TrenchMOS™ technology offers integrated components on
to standard MOSFETs with very low RDS(ON) and low cost pro-
tection features
*TrenchPLUS enables application specific optimised power driving
solutions
Related literature
Title Order code
In-Vehicle Power Brochure - Powering your
automotive applications
Power MOSFET Single-shot and Repetitive Avalanche
Ruggedness Rating
Temperature Sensing using TrenchPLUS devices
9397 750 10255
AN10273
AN10137
Automotive TrenchMOSTM part numbering
Automotive Smart Power
195
Power Management
www.semiconductors.philips.com
194
TOPFET
Related literature
Title Order code
HIGH SIDE DEVICES
VDS
(V)
RDS(ON)
(mΩ)
I(ISO)
(max) (A)
Type Over-
temperature
Protection
Low Current
Detect*
Short Circuit
Detect
Ilim
(A)
SOT263B-01
(5-pin TO220) D2PAK 5-pin
(SOT426)
50 14 10 High Side 5 Pin •■ 10 - 21 BUK2914-50SYTS BUK2114-50SYTS
50 14 25 High Side 5 Pin • • ❖ 47 - 100 BUK212-50Y BUK217-50Y
50 14 25 High Side 5 Pin • • ❖ 47 - 100 BUK212-50YT
50 20 18 High Side 5 Pin • • ❖ 42 - 88 BUK211-50Y BUK216-50Y
50 20 18 High Side 5 Pin • • ❖ 42 - 88 BUK211-50YT
50 30 12 High Side 5 Pin • • ❖ 38 - 72 BUK223-50Y BUK224-50Y
50 38 9 High Side 5 Pin • • ❖ 20 - 40 BUK210-50Y
50 38 9 High Side 5 Pin • • ❖ 20 - 40 BUK210-50YT
50 38 9 High Side 5 Pin • • ❖ 34 - 64 BUK215-50Y
50 38 9 High Side 5 Pin • • ❖ 34 - 64 BUK2138-50SYAA
50 43 9 High Side 5 Pin • • ❖ 34 - 64 BUK2938-50TYAA BUK2138-50TYAA
50 60 6 High Side 5 Pin • • ❖ 34 - 64 BUK209-50Y
50 60 6 High Side 5 Pin • • ❖ 20 - 40 BUK214-50Y
50 100 4 High Side 5 Pin • • ❖ 12 - 24 BUK208-50Y BUK213-50Y
50 180 2 High Side 5 Pin • • ❖ 6 - 12 BUK219-50Y BUK220-50Y
Note: * indicated on status pin
The following notes are for the short circuit detect column only:
Note: ❖indicates short circuit on status and latches off (by voltage detection)
Note: ■indicates short circuit on status and latches off (by power detection)
Automotive Power TOPFET applications : Driving Automotive Lamps with TOPFETs 9397 750 11541
Short circuit protection of High side switches 9397 750 11979
Why choose
Philips Semiconductors?
MSE183
B
L
G
S
I
VBL
Vbatt
50 kΩ
3.3 kΩ
3.3 kΩ
Status o/p to micro
5 V
i/p from micro
High Side TOPFET application diagram
msc845
CONTROL
&
PROTECTION
CIRCUITS
RG
BATT
LOAD 1
INPUT 1
INPUT 2
STATUS
GROUND LOAD 2
TOPFET block diagram
gate sense
load
input
L
B
B
I
S
battery
status
output VGL
clamp
VGND
RG
≈150 Ω
ESD
clamps
ground
HIGH SIDE TopFET
VBL
clamp
VBG
clamp
ground
bra012
CONTROL &
PROTECTION
CIRCUITS
High Side TOPFET block diagram
Automotive TOPFETs
*Real low RDS(ON) protected Power MOSFETs
*Protected against overload, overvoltage and shorted lead
*No additional design in effort required than with a standard
MOSFET
*High side switch - monolithic level shifter, protection circuits and
power MOSFET are all on one chip
*Very low current drain in off state
*Can be directly interfaced to a microcontroller
*TOPFET range uses Philips' field proven TrenchMOSTM technology
for superior performance
MSD841
= Dual Channel + Non latching short circuit protection
= Dual Channel + Integral ground resistor
= Current Measure + Integral ground resistor
= Integral ground resistor
= Integral ground resistor + Over-temperature latching
= High-Side Switch
Voltage (V)
High Side Switch part numbering
Why choose
Philips Semiconductors?
MSE302
= Logic Level High input to gate resistance
(typ 25 k
Ω
)+Standard current limit function
= Logic Level Low input to gate resistance
(typ 2.5 k
Ω
)+Standard current trip function
= Logic Level + input resistor
= Low-Side Switch
Voltage (V)
Related literature
Title Order code
197
Low Side Switch part numbering (types BUK117 - BUK150 only)
MSE303
= High input to gate resistance (typ 33 k
Ω
)
+ Reduced current limit (1.3 A typ)
=Low input to gate resistance (typ 4 k
Ω
)
+ Standard current trip (6 A typ)
= Low-Side Switch
Voltage (V)
Topfet BUK127 (exception) part numbering
Power Management
Automotive TOPFETs
*Real low RDS(ON) protected Power MOSFETs
*Protected against overload, overvoltage and shorted lead
*
No additional design in effort required than with a standard MOSFET
*Monolithic level shifter, protection circuits and power MOSFET are
all on one chip
*Very low current drain in off state
*Can be directly interfaced to a microcontroller
*TOPFET range uses Philips' field proven TrenchMOSTM technology
for superior performance
www.semiconductors.philips.com
196
TOPFET
LOW SIDE DEVICES
VDS
(V)
RDS(ON)
(mΩ)
I(ISO)
(max) (A)
Type Status
Reporting
SOT78B
(TO220AB)
SOT263B-01
(5-pin TO220)
SC73
(SOT223) D2PAK
(SOT404)
SOT226
(I2PAK)
D2PAK 5-pin
(SOT426)
D-PAK
(SOT428)
50 20 16 Low Side
5 Pin
▼ BUK125-50L BUK136-50L
50 28 12 Low Side
3 Pin
BUK130-50DL BUK150-50DL
50 28 12 Low Side
5 Pin
▼ BUK124-50L BUK135-50L
50 50 7 Low Side
3 Pin
BUK129-50DL BUK149-50DL BUK139-50DL
50 100 3.5 Low Side
3 Pin
BUK128-50DL BUK148-50DL BUK138-50DL
50 200 0.7^ Low Side
3 Pin
BUK127-50DL
50 200 0.7^ Low Side
3 Pin
BUK119-50DL
BUK118-50DL
BUK117-50DL
BUK127-50GT*
Note: ▼indicates status feature is available
Note: * indicates this device has current trip and low input resistance
Note: ^ indicates current capability set by Ilim parameter
In-Vehicle Power Brochure - Powering your automotive applications
9397 750 10255
TOPFET
MULTIPLE CHANNEL DEVICES
VDS
(V)
Single
Channel
RDS(ON)
(mΩ)
I(ISO)
(max) (A)
Type Over-
temperature
Protection
Low
Current
Detect*
Short
Circuit
Detect
Ilim
(A)
Open load
Detection
in Off State
SOT427
(D2PAK 7-pin)
SO20
(SOT163-1)
50 40 (dual) 8High Side
Dual 7 Pin
• • ■ 18 - 42 • BUK218-50DY
50 40 (dual) 8High Side
Dual 7 Pin
•18 - 42 • BUK218-50DC
50 80 (dual) 3High Side
Dual 7 Pin
• • ❖ 8 - 16 BUK221-50DY
50 200 (quad) 0.7^ Low Side
Quad 20 Pin
• BUK1M200-50SGTD
50 200 (quad) 0.7^ Low Side
Quad 20 Pin
• BUK1M200-50SDLD
Note: ^ indicates current capability set by Ilim parameter
Note: * indicated on status pin
The following notes are for the short circuit detect column only:
Note: ❖indicates short circuit on status and latches off (by voltage detection)
Note: ■indicates short circuit on status and latches off (by power detection)
bra284
BUKabrrr-vvXxxx
TOPFET Multiple Channel part numbering
"BUK" - Automotive
qualified MOSFET
"rrr" - Rdson (mΩ)
of each channel
"vv" - Voltage rating
"X" - Generation
S = TOPFET 2
"xxx" - Feature set
including no. of
channels
"b" - Package
C = SOT427
M = SO20
"a" - Technology
1 = Low Side Switch
2 = High Side Switch
Related literature
Title Order code
Multiple Channel Switch part numbering
Thermal characteristics of the BUK1M200-50SDLD 9397 750 11978
Automotive Smart Power
Lighting ICs
Why choose
Philips Semiconductors?
mgw579
+
−
! !"!
!"!#$% !"!
%&"! !"!
'()'!'*) !"!
+$) !"!
&*,- !"!
%*.#-*.) !"!
/
!
01
%-
/)2
3*,!"(
-'('!",
")",*( $%%,4 0 1
5
67
7
5
5
8
,"9%0/"',1 ,"9%09":1
;
7*) "
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Related literature
Title Order code
199
UBA2014
mgs988
7*)
!
"##$%$&'(
)'&*+* +&,+$
-
.
UBA2021
Power Management
Meeting constantly evolving lighting needs, Philips offers one
of the most extensive portfolios of integrated solutions. Our
driver ICs for lighting ballasts include full-bridge drivers, fab-
ricated in Philips' high voltage DMOS process and ideal for
use as commutators for HID lamps; and half-bridge drivers
suited to control and driving of TL and CFL lamps. Each has
a number of adjustable features such as oscillator frequency,
and preheat and ignition times.
*The new UBA2032 is a high voltage monolithic integrated circuit
made in the EZ-HV SOI process.The circuit is designed for driving
the MOSFETs in a full bridge configuration. In addition, it features a
disable function, an internal adjustable oscillator and an external
drive function with a high-voltage level shifter for driving the
bridge.To guarantee an accurate 50 pct. duty factor, the oscillator
signal can be passed through a divider before being fed to the
output drivers.
www.semiconductors.philips.com
198
Lighting ICs
types in bold red represent new products
type package type of light operating temperature in
°C
supply voltage remarks
UBA2014 SOT109 (SO16)
SOT38 (DIP16)
HFTL -25 to 150 600 integrated dim function
UBA2021 SOT27-1 (DIP14)
SOT108-1 (SO14)
CFL / HFTL -40 to 150 630 adjustable pre heat current
UBA2032 SOT137-1 (SO24)
SOT341-1 (SSOP28)
HID -40 to 150 550 adjustable 'dead' time, oscilla-
tor frequency & shut down
function.Application: eg auto-
motive
UBA2033 SOT341 (SSOP28) HID -40 to 150 550 application: eg beamers
UBA2070 SOT38-1 (DIP16)
SOT109-1 (SO16)
CCFL -40 to 150 600 includes level shift circuit, os-
cillator, lamp voltage monitor,
current control timer
Managing a brighter world with lighting power and control solutions 9397 750 14014
mgu542
LOW VOLTAGE
LEVEL SHIFTER
OSCILLATOR
STABILIZER
UVLO
HV
SGND
VDD
RC
SU
BD
HIGH VOLTAGE
LEVEL SHIFTER
HIGHER LEFT
DRIVER
LOWER RIGHT
DRIVER
LOWER LEFT
DRIVER
HIGHER RIGHT
DRIVER
LOGIC SIGNAL
GENERATOR
LOGIC
÷
2
11 (13)
8 (10)
10 (12)
9 (11)
1.29 V
2 (2)1 (1) 3 (3)
EXTDR
−
LVS
+
LVS
DD
4, 6, 16, 19, 21
(4, 5, 7, 8, 18, 19, 22, 24, 25)
n.c.
17 (20) GLL
18 (21) PGND
20 (23) GLR
22 (26) SHR
24 (28) GHR
13 (15) GHL
23 (27) FSR
15 (17) SHL
14 (16) FSL
7*) ! 6
7*) ! 65
12 (14)
7 (9)
5 (6)
bridge disable
UBA2032
mgt990
+
−
! !"!
#$%#!#&% !"!
'(% !"!
)&*+ !"!
,&-+&-% !"!
!
.*&-/
.0*"1,/
2%0
3&*!"$
+#$#!"*
"%"*&$ (,,*4 . /
5
67
7
5
5
8
9
%:0:
.2"#*/ .1";/
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UBA2070
mbl547
×
PCF8814
UBA2033
Why choose
Philips Semiconductors?
Related literature
Title Order code
201
Power Management
Philips Semiconductors DDR regulators also significantly
reduce external component requirements and provide well-
regulated power for DDR SDRAM bus termination in a wide
variety of embedded systems and applications from PC
motherboards to game machine and set-top boxes.
*Applications are: laptops, desktop microcomputer systems, work-
stations, Set-top boxes, servers, networking routers and switches,
video display systems, game machines etc.
www.semiconductors.philips.com
200
Battery Management ICs
DDR Bus Termination Regulators
BATTERY CHARGE LEVEL INDICATORS
type package operating voltage remarks power dissipation operating temperature in
°C
NE57810 SOT756 (SPAK-5) 1.6~3.6 optional external voltage ref-
erence in for flexible applica-
tions
3.3 0~70
NE57811 SOT756 (SPAK-5) 1.6~3.6 reduced power mode 3.3 0~70
NE57814 SOT786BB2 (HSO8) 1.6~3.6 very low power standby
mode
3.3 0~70
NE57810/NE57811/NE57814 Advanced DDR
Bus Termination Regulator
9397 750 09961
Why choose
Philips Semiconductors?
1
2
3
4
8
7
6
5
mgs580
6,)!$$
VP
GNDGND
GND
ADJ
n.c.
GND
REG
TDA3661
mgs584
6,)!$$!
TDA3663
Philips' portfolio of linear voltage regulators includes low
dropout, DDR and multiple output device families.Available
in a comprehensive range of voltages, our linear LDO regu-
lators offer optimized power consumption and are highly
compact.
TDA3664
mgl809
6,)!$$"
Low Dropout regulators
type package application operating temperature in
°C
output voltage MAX (MHz)
TDA3661 SOT96-1 (SO8) Radio,Audio and CD/DVD
Systems
-40 to 85 1 45
TDA3663 SOT223-1 (SO4)
SOT96-1 (SO8)
Radio,Audio and CD/DVD
Systems
-40 to 85 5 45
TDA3664 SOT223-1 (SO4)
SOT96-1 (SO8)
Radio,Audio and CD/DVD
Systems
-40 to 85 4.75~5.25 45
type package application operating temperature in °C
SAA1501T SOT137 (SO24) General-purpose/Linear IC 0 to70
SAA1064 SOT101-1 (DIP24)
SOT137 (SO24)
4 digit LED driver -40 to 85
Related literature
Title Order code
I2C Bus Solutions 9397 750 12744
I2C Logic Selection guide 2004 9397 750 12775
Why choose
Philips Semiconductors?
Philips covers almost the entire energy chain for portable power
and battery management in mobile devices, including intelligent
chargers and state-of-charge indicators. Manufactured in
advanced BiCMOS technology, our fast-charge controller ICs
integrate the complex mix of requirements necessary for all bat-
tery types, and for both linear and switched-mode systems. Our
portfolio also includes devices that switch from current to volt-
age regulation at battery specific voltages for Li-Ion and SLA
batteries, and state-of-charge / discharge indicators and fast-
charge controllers for low-voltage NiMH- and NiCd-powered
applications.
The SAA1501T is intended to be used as a battery monitor and charge
current control circuit in rechargeable battery systems.
During battery charging, the charge current and charge time are regis-
tered in a Coulomb counter. During discharge, the discharge current and
time are recorded.The momentary charge amount of the batteries can
be displayed either on an LCD screen or on an LED bargraph. Using the
SAA1501T, intelligent batteries or intelligent battery powered systems
can be easily designed with only a few external components.
The SAA1064 LED-driver is a bipolar integrated circuit made in an I2L
compatible 18 volts process.The circuit is especially designed to drive
four 7-segment LED displays with decimal point by means of multiplexing
between two pairs of digits.
Linear Voltage Regulators /
Battery Management ICs
Motor Drive ICs
Why choose
Philips Semiconductors?
001aaa429
REVERSE
DETECTION
LEVEL
SHIFT
LEVEL
SHIFT
LEVEL
SHIFT
LEVEL
SHIFT
SLED
LOGIC
CURRENT
REFERENCE
FG
OSCILLATOR
THERMAL
SHUTDOWN
FG
HALL BIAS
ADC
CHARGE
PUMP
MUTE/
STANDBY
FUNCTIONS
SPINDLE
LOGIC
HALL
AMP
1
2
3
4
5
6
7
8
9
10
11
12
13
15
14
16
17
18
28
19
20
21
22
23
24
25
26
27
DIODE
47 kΩ
VINREF
VINREF
VINREF
VINREF
VINREF
VINREF
VINREF
SA56202
VSS(DIO)
VINLD
COSCHU+
HU−
HV+
HV−
HW+
HW−
HBIAS
RREF
REMF
RLIM
VSS1(SPN)
U
VDD1(SPN)
V
VSS2(SPN)
W
VDD2(SPN)
FG
VSSD
VINSPN
VINREF
VDDA
CP1
CP2
CP3
CTL1
CTL2
TEMP
VINFCS
VINTRK
VINTLT
VDD(LD)
LDO+
LDO−
VSS(LIN)
VDD(ACT)
TLTO−
TRKO−
TRKO+
FCSO−
FCSO+
TLTO+
RSLD1
RSLD2
SLDO2−
SLDO2+
SLDO1−
SLDO1+
VDD(SLD)
VSSA
VINSLD1
VINSLD2
31
30
29
33
32
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
50
51
52
53
54
55
56
47 kΩ
203
SA56202
001aab244
REVERSE
DETECTION
LEVEL
SHIFT
47 kΩ
VINREF
47 kΩ
VINREF
47 kΩ
VINREF
47 kΩ
VINREF
LEVEL
SHIFT
LEVEL
SHIFT
LEVEL
SHIFT
SLED
LOGIC
CURRENT
REFERENCE
FG
OSCILLATOR
THERMAL
SHUTDOWN
FG
HALL BIAS
ADC
CHARGE
PUMP
MUTE/
STANDBY
FUNCTIONS
SPINDLE
LOGIC
HALL
AMP
1
2
3
4
5
6
7
8
9
10
11
12
13
15
14
16
17
18
28
19
20
21
22
23
24
25
26
27 47 kΩ
VINREF
500 kΩ
VINREF
VINREF
SA56203
VINLD
COSCHU+
HU−
HV+
HV−
HW+
HW−
HBIAS
RREF
REMF
RLIM
VSS1(SPN)
U
VDD1(SPN)
V
VSS2(SPN)
W
VDD2(SPN)
FG
VSSA
VINSPN
VINREF
VDDA
CP1
CP2
CP3
CTL1
CTL2
TEMP
VINTRK
VINFCS
VINTLT
VDD(LD)
VDD(TRK)
LDO+
LDO−
VSS(ACT)
VDD(ACT)
TLTO−
FCSO−
FCSO+
TRKO−
TRKO+
TLTO+
RSLD1
RSLD2
SLDO2−
SLDO2+
SLDO1−
SLDO1+
VSS(SLD)
VDD(SLD)
VLDTRK
VINSLD1
VINSLD2
31
30
29
33
32
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
49
51
50
52
53
54
55
56
47 kΩ
SA56203
Power Management
Philips offers a range of compact motor drivers, approxi-
mately half the size of competing solutions.The products
have been designed for the latest generation of rewriteable
optical storage devices, such as DVD rewriteable, Combo
drives and CD rewriters, used in the desktop PC market, as
well as home entertainment DVD recorders
*Supporting 8x and 16x drive speeds, the SA56202 helps drive
manufacturers move to next-generation technology quickly and
easily. It is part of the Philips Nexperia TM reference design offer-
ing you simple, rapid and low-risk development of DVD-recorder
systems.
www.semiconductors.philips.com
202
One Chip Motor Drivers
types in bold red represent new products
type package output current limit
(mA)
power dissipation operating voltage remarks
SA56202 SOT793-1 (HTSSOP56) 2A temp.range -40 to 85, Rth 4.5~14 True Silent PWM spindle mo-
tor and 6channel actuator
driver
SA56203 SOT793-1 (HTSSOP56) 2A temp.range -40 to 85, Rth 4.5~14 PWM spindle motor and
6channel actuator driver
Why choose
Philips Semiconductors?
Philips offers a range of compact motor drivers, approxi-
mately half the size of competing solutions.The products
have been designed for the latest generation of rewriteable
optical storage devices, such as DVD rewriteable, Combo
drives and CD rewriters, used in the desktop PC market, as
well as home entertainment DVD recorders
*The TDA5140 is a bipolar integrated circuit used to drive 3-phase
brushless DC motors in full-wave mode.The device is sensorless
(saving of 3 hall-sensors) using the back-EMF sensing technique to
sense the rotor position.
*The TDA5145 is a bipolar integrated circuit used to drive 3-phase
brushless DC motors in full-wave mode.The device is sensorless
(saving of 3 hall-sensors) using the back-EMF sensing technique to
sense the rotor position. It includes bidirectional control, brake
function and has a special circuit built-in to reduce the EMI (soft
switching output stages).
*The TDA5240 is a bipolar integrated circuit used to drive brush-
less DC motors in full-wave mode.The device senses the rotor
position using an EMF-sensing technique and is ideally suited as a
drive circuit for VCR scanner motors.
*The TDF5140 is a bipolar integrated circuit used to drive 3-phase
brushless DC motors in full-wave mode.The device is sensorless
(saving of 3 hall-sensors) using the back-EMF sensing technique to
sense the rotor position
TDF5140
mgh313
!
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Brushless DC Motor Drive Circuits
type package output current limit
(mA)
power dissipation operating voltage remarks
TDA5140 SOT163 (SO20) 0.8 1.7 4~18 3-phase brushless
TDA5145 SOT136-1 (SO28)
SOT340-1 (SSOP24)
2 1.3 4~18 3-phase brushless, brake
function, bi-directional con-
trol, soft-switching outputs
TDA5240 SOT163 (SO20) 0.85 1.2 4~18 3-phase brushless,soft-switch
outputs
TDF5140 SOT102-1 (DIP18) 0.8 1.2 4~18 full wave commutation with-
out position sensors
Power Bipolar Transistors
Why choose
Philips Semiconductors?
MSD847
! !"
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205
Deflection Transistor part numbering
MSD831
Deflection Circuit
Power Management
Deflection
*Complete portfolio of Industry benchmark deflection transistors
for all CTV and Monitor applications
*Proven glass mesa process utilised to produce very good switching
characteristics
*Improved emitter design enhances ruggedness in the BU45 series
*Optimised for low loss in applications from 1000 - 1700 V
*Full range of industry standard packages offered with or without
integrated damper diodes
www.semiconductors.philips.com
204
Deflection
VCESM
(V)
IC [SAT]
(A)
tf [max]
(µs)
SOT186A
(isolated TO220AB)
SOT199 SOT399
(TOP3D)
TO247
(SOT429)
1000 3 0.3 BUT11APX
1200 2 0.3 BUT11APX-1200
1500 3 0.4 BU4506DZ
1500 3 0.45 BU4506AF BU4506AX
1500 3 0.5 BU1506DX BU2506DF BU2506DX
1500 4 0.4 BU4507DX
1500 4 0.45 BU4507AX
1500 4 0.5 BU1507AX BU2507AX
1500 4 0.5 BU2507DX
1500 4.5 0.6 BU1508AX BU2508AF BU2508AX
1500 4.5 0.6 BU1508DX BU2508DF BU2508DX
1500 4.5 1 BU508AF BU508AW
1500 4.5 1 BU508DF BU508DW
1500 5 0.4 BU4508DZ BU4508DF BU4508DX
1500 5 0.48 BU4508AX
1500 6 0.5 BU4515AF BU4515AX
1500 6 0.25 BU2522AF BU2522AX
1500 6 0.5 BU2520AF BU2520AX
1500 6 0.5 BU2520DF BU2520DX
1500 7 0.4 BU4522AF BU4522AX
1500 8 0.35 BU2525AF BU2525AX BU2525AW
1500 8 0.35 BU2525DX
1500 6 0.2 BU2527AF BU2527AX
1500 6 0.2 BU2527DX
1500 9 0.55 BU4525AX
1500 7 0.1 BU2532AW
1500 9 0.25 BU2530AW
1500 10 0.4 BU4530AW
1700 5.5 0.9 BU2720DX
1700 7 0.8 BU2725DX
Why choose
Philips Semiconductors?
MSD980
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BUJ part numbering
MSD830
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Electronic lighting ballast
BUJ range of Bipolar Transistors
*Wide choice of current ratings and packages meets all self-
oscillating ballast requirements
*Planar passivation technology offers stable voltage blocking at
elevated temperature for longterm reliability and long life
*Transistor design optimised for the lowest power dissipation in
lighting ballasts
*Very fast, smooth turn-off performance yields the lowest switching
dissipation
*Very low VCESAT yields low ON-state losses
*Very fast turn-off is maintained, even when base is driven hard to
minimise ON-state losses
*BUJ100 in TO92 is suitable for all Compact Fluorescent Lamps and
ballasts up to 26W @ 230 V AC
*Tightly-controlled gain makes selection and gain banding unneces-
sary
*Flat gain characteristic over a wide range of IC guarantees correct
operation under all conditions
VCESM
(V)
IC[DC]
(A)
IC[SAT]
(A)
tf[max]
(µs)
SOT82 TO220AB
(SOT78)
SOT186A
(isolated
TO220AB)
TO92
(SOT54) D2-PAK
(SOT404)
700 1 0.5 0.05 BUJ100
700 1 0.5 0.05 BUJ100B
700 4 3 0.033 BUJ103A
700 4 2 0.16 PHE13005
700 8 4 0.045 BUJ105A BUJ105AB
700 8 5 0.04 PHE13007
700 10 6 0.05 BUJ106A
700 12 6 0.15 PHE13009
800 0.5 0.28 BUX86P
1000 0.5 0.28 BUX87P
1000 2 1 0.4 BUX85
1000 5 2.5 0.8 BUT11A BUT11AX
1000 5 2.5 0.8 BUT11AI
1000 5 3 0.145 BUJ303A
1000 6 4 0.03
1000 6 4 0.8 BUT18A
1000 8 5 0.8 BUT12AX
1000 8 5 0.8 BUT12AI
1050 5 3 0.45 BUJ303B
1200 6 2 0.17 BUJ403A
Lighting
Power Conversion
Why choose
Philips Semiconductors?
col009
PROTECTION
LOGIC
LOGIC
SUPPLY
TEA1622P
VALLEY
POWER-UP
RESET
THERMAL
SHUTDOWN
OSCILLATOR
PWM
stop
low frequency
100 mV
0.75 V
0.5 V
blank
short winding
overcurrent
10x
2.5 V
f
1.8 U
1
2
3
4
8
7
6
5
DRAIN
n.c.
GND
SOURCE
AUX
REG
RC
VCC
Related literature
Title Order code
207
TEA1622
Ω
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PROTECTION
LOGIC
LOGIC
SUPPLY
TEA1623P
VALLEY
POWER-UP
RESET
THERMAL
SHUTDOWN
OSCILLATOR
PWM
stop
low frequency
100 mV
0.75 V
0.5 V
blank
short winding
overcurrent
10x
2.5 V
f
1.8 U
1
2
3
4
8
7
6
5
DRAIN
n.c.
GND
SOURCE
AUX
REG
RC
VCC
TEA1623
Power Management
The new TEA162x devices are the latest addition to Philips'
highly efficient STARplugTM range of controller ICs for low-
power switched mode power supplies (SMPSs). Like all
STARplugTM products, they operate directly from rectified
universal mains supplies: 80 to 276 V. Essentially turnkey
solutions, they dramatically cut design-in time for new
power supplies in many applications.
*The device includes a high voltage power switch and a circuit for
start-up directly from the rectified mains voltage.A dedicated
circuit for valley switching is built in, which makes a very efficient
slim-line electronic power-plug concept possible.
*Typical application areas for the STARplugTM are: chargers, adapters,
STB, DVD, CD,TV/Monitor standby supplies etc.
www.semiconductors.philips.com
206
AC-DC Converters
SMPS ICS FOR LOW POWER SYSTEMS types in bold red represent new products
type package valley switching operating temperature in
°C
max supply voltage high voltage start up
source
TEA1520 SOT97-1 (DIP8)
SOT108-1 (SO14)
yes -20 to 85 40 yes
TEA1521 SOT97-1 (DIP8)
SOT108-1 (SO14)
yes -20 to 85 40 yes
TEA1522 SOT97-1 (DIP8)
SOT108-1 (SO14)
yes -20 to 85 40 yes
TEA1523 SOT97-1 (DIP8)
SOT108-1 (SO14)
yes -20 to 85 40 yes
TEA1524 SOT97-1 (DIP8) yes -20 to 85 40 yes
TEA1620 SOT97-1 (DIP8) yes -20 to 85 40 yes
TEA1622 SOT97-1 (DIP8) yes -20 to 85 40 yes
TEA1623 SOT97-1 (DIP8)
SOT38-1 (DIP16)
yes -20 to 85 40 yes
STARplugTM Power Solutions 9397 750 11989
mgt419
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col006
PROTECTION
LOGIC
LOGIC
SUPPLY
TEA1620P
VALLEY
POWER-UP
RESET
THERMAL
SHUTDOWN
OSCILLATOR
PWM
stop
low frequency
100 mV
0.75 V
0.5 V
blank
short winding
overcurrent
10x
2.5 V
f
1.8 U
1
2
3
4
8
7
6
5
DRAIN
n.c.
GND
SOURCE
AUX
REG
RC
VCC
TEA1620
Power Conversion
Why choose
Philips Semiconductors?
mgm820
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Related literature
Title Order code
209
TEA1501
mgs569
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TEA1506
SUPPLY
MANAGEMENT
internal
supply
UVLO start
Vm
VCC 1
2
4
GND
S1
CTRL
OSCILLATOR
DCM
AND
CCM
DETECTION
LOGIC
LOGIC
BROWN-OUT
PROTECTION
soft
start
S2
OVER-
TEMPERATURE
PROTECTION
SQ
R
UVLO Q
MAXIMUM
ON-TIME
PROTECTION
POWER-ON
RESET
−1
VALLEY
80
mV
clamp
DRIVER
START-UP
CURRENT SOURCE
0.5 V
6SENSE
7DRIVER
coa014
5DEM
8DRAIN
OCP
LEB
blank
Iss
Islopecomp
0.63 V
SQ
R
VCC < 4.5 V Q
−50
mV
Iprot(dem)
TEA1532T
TEA1532P
Osc_Rdy
Duty_Max
SLOPE
COMPENSATION
5.6 V
control
detect
Icharge
3
PROTECT
5.6 V
Idischarge
300 Ω
protect
detect
3 V
2.5 V
S3 DCM and CCM
TEA1532
Power Management
The GreenChipTM II is the second generation of green
Switched Mode Power Supply (SMPS) controller ICs operat-
ing directly from the rectified universal mains.A high level of
integration leads to a cost effective power supply with a very
low number of external components.
*The special built-in green functions allow the efficiency to be opti-
mum at all power levels.This holds for quasi-resonant operation at
high power levels, as well as fixed frequency operation with valley
switching at medium power levels.At low power (standby) levels,
the system operates at reduced frequency and with valley detec-
tion.
*If burst mode operation is applied, the standby power level can
even be reduced to below 1 W.
www.semiconductors.philips.com
208
AC-DC Converters
SMPS ICS FOR HIGH POWER SYSTEMS types in bold red represent new products
type package burst mode operating temperature in
°C
max supply voltage high voltage start up
source
TEA1501 SOT97-1 (DIP8) yes -25 to 70 24 yes
TEA1504 SOT27-1 (DIP14) yes -25 to 70 18 yes
TEA1506 SOT97-1 (DIP8) no -25 to 70 20 no
TEA1507 SOT97-1 (DIP8) yes -25 to 70 20 yes
TEA1532 SOT96-1 (SO8) no -25 to 70 20 yes
TEA1533 SOT97-1 (DIP8)
SO108-1 (SO14)
yes -25 to 70 20 yes
TEA1552 SO108-1 (SO14) no -25 to 70 20 yes
TEA1610 SOT38-1 (DIP16)
SOT109 (SO16)
no -25 to 70 14 yes
TEA1654 SOT108-1 (SO14) no -20 to 85 40 yes
PMU+ Laptop and notebooks 9397 750 10346
Greenchip SPMS Control IC 9397 750 11992
Delivering total design freedom 9397 750 13935
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TEA1507
Power Conversion
Why choose
Philips Semiconductors?
VDDO
VSSO
VSSC
VO
VDDC
VI
sourceH
driveH
driveL
control
cct gnd
bootstrap
capacitor
03ae80
CB
PIP201-12M
sourceL
PWM
input
11, 12 1 to 8, 60, 61
68, PAD1
10, 26, 27,
45 to 59
62 to 67, PAD3
28 to 44
9, 15
22 to 24, PAD2
16, 17
13, 14
control cct
supply
n.c. 18 to 21, 25
Related literature
Title Order code
211
PIP201-12M
VDDO
VSSO
VSSC
VO
VDDC
VI
sourceH
driveH
driveL
control
cct gnd
bootstrap
capacitor
03ag51
CB
PIP202-12M
sourceL
PWM
input
11, 12 1 to 8, 60, 61
68, PAD1
10, 26, 27,
45 to 59
62 to 67, PAD3
28 to 44
9, 15
22 to 24, PAD2
16, 17
13, 14
control cct
supply
n.c. 18 to 21, 25
Power Management
PIP2xx
*A single PIP2xx device integrating all the power and driver
functions required for a single-phase synchronous buck converter,
combining control (high-side) FET, synchronous (low-side) FET and
FET driver into a single package
*Multiphase architectures providing higher current capabilities are
easily implemented by utilising 1 PIP2xx per phase
*Up to 1 MHz switching frequency, greatly reducing number of bulk
capacitors for output smoothing, saving solution cost and board
space
*Ultra-thin surface-mount package, saving board space and reducing
weight
*Compatible with industry standard single and multiphase PWM
controllers
*High conversion efficiency through optimised design and packaging
*Ease of design allowing for shorter time to market
www.semiconductors.philips.com
210
PIP2xx (Philips Intelligent Power, an Integrated Solution)
types in bold red italic underlined represent products in development
Vin
(V)
Vout
(V)
fin (typical)
(kHz)
IO(avg)
(A)
System
Efficiency
@15A
(%)
10x10
MLF
Package
Name
Package
Name
12 1.5 500 20 82 PIP201-12M-3 HVQFN68 10X10 MLF
12 1.5 500 25 86 PIP202-12M-2 HVQFN68 10X10 MLF
5 - 12 1.3 500 35 90 PIP212-12M HVQFN56 8X8 MLF
PIP201-12M An innovative powertrain solution for VR(M) and DC/DC POL 9397 750 09901
PIP202-12M An innovative powertrain solution for VR(M) and DC/DC POL 9397 750 09902
PIP202-12M
Why choose
Philips Semiconductors?
MSD844
= SOT263-01 (5 pin TO220)
= SOT404 (D2PAK)
= SOT427 (7 pin D2PAK)
= SOT428 (DPAK)
= SOT78 (TO220)
= SOT426 (5 pin D2PAK)
= SOT223
= SAPFET
= OR-ing FET
= TOPFET
= Low side
= High side
Dual device
Sequential
catalogue number
Related literature
Title Order code
PIP part numbering
handbook, full pagewidth
MLD774
g
d
b
s
OVER-VOLTAGE
CLAMP
LOGIC
AND
PROTECTION
RIG
input
source
EXTERNAL
LOAD
+VD
g
g
dd
bb
ss
protection
supply
flag OPEN CIRCUIT
LOAD DETECT
PIP3XXX High Side
Philips Intelligent Power
*
Over Current, Over Temperature, Over Voltage and ESD protection
*Cost reduction through lower PCB space requirement
*Simplified design facilitates time to market reduction
*Lower assembly cost through lower component count
*External ground resistor not required
*Self protection against transients and supply polarity reversal
*Excellent EMC performance
PIP3XXX Low Side
handbook, full pagewidth
MLD776
g
d
b
CONTROL
AND
PROTECTION
CIRCUITS
POWER
MOSFET
Rground
input
BATTERY
LOAD
status
ground
+
s
PIP3xx (Philips Intelligent Power)
PART NUMBER TYPE PACKAGE RDS(ON)
(Ω)
VDS
(V)
PIP3101-A Low Side 5 Pin SOT263-01 0.028 50
PIP3102-R Low Side 5 Pin SOT426 (D2-PAK) 0.028 50
PIP3103-T Low Side 3 Pin SOT223 0.2 50
PIP3104-P Low Side 3 Pin SOT78 (TO220AB) 0.1 50
PIP3105-P Low Side 3 Pin SOT78 (TO220AB) 0.05 50
PIP3106-D Low Side 3 Pin SOT428 (D-PAK) 0.1 50
PIP3107-D Low Side 3 Pin SOT428 (D-PAK) 0.05 50
PIP3115-B Low Side 3 Pin SOT404 (D2-PAK) 0.1 50
PIP3117-B Low Side 3 Pin SOT404 (D2-PAK) 0.05 50
PIP3118-B Low Side 3 Pin SOT404 (D2-PAK) 0.028 50
PIP3119-P Low Side 3 Pin SOT78 (TO220AB) 0.028 50
PIP3121-A Low Side 5 Pin SOT263-01 0.02 50
PIP3122-R Low Side 5 Pin SOT426 (5 pin (D2-PAK) 0.02 50
PIP3201-A High Side 5 Pin SOT263-01 0.038 50
PIP3202-DC High Side Dual 7 Pin SOT427 (D2-PAK) 0.04 (Dual) 50
PIP3203-A High Side 5 Pin SOT263-01 0.1 50
PIP3206-R High Side 5 Pin SOT426 (D2-PAK) 0.014 50
PIP3207-DC High Side Dual 7 Pin, soft latch SOT427 (D2-PAK) 0.04 50
PIP3208-A High Side 5 Pin SOT263-01 0.18 50
PIP3209-R High Side 5 Pin SOT426 (D2-PAK) 0.18 50
PIP3210-R High Side 5 Pin SOT426 (D2-PAK) 0.038 50
PIP3211-R High Side 5 Pin SOT426 (D2-PAK) 0.038 50
PIP3212-A High Side 5 Pin SOT263-01 0.02 50
PIP3213-R High Side 5 Pin SOT426 (D2-PAK) 0.02 50
PIP3221-DC High Side Dual 7 Pin, soft latch SOT427 (D2-PAK) 0.08 (Dual) 50
PIP3224-DC High Side Dual 7 Pin SOT427 (D2-PAK) 0.08 (Dual) 50
PIP3 TOPFETs for industrial automation AN01048 9397 750 09069
Power Conversion/Diodes and Rectifiers
Why choose
Philips Semiconductors?
VCC
VCC
IN
driver
power switch
comparator
SOURCE
GATE
4, mb
1
3
2
6, 7
5
VI
VRS
VCC
VCC
PIP401
GND
thermal flag
VO
TFL
GND
03ah71
TOUT
Related literature
Title Order code
213
PIP401
VCC VRS
GND
system bus
system bus ground
power supply shutdown
(open collector)
auxiliary supply
+20 V max
input voltage
from power supply
system
ground
03aj16
VOVI
R1
(100 Ω typ)
C1
(100 nF)
D1
TFL
Typical application circuit
Power Management
PIP401
*Intelligent OR-ing switch
*All OR-ing functions for N+1 power architectures integrated in a
single device
*Very low forward voltage, very fast switch off, controlled turn-on
*Retains system integrity during catastrophic fault conditions
*Delivers a major improvement in power density
*Design complexity significantly reduced
www.semiconductors.philips.com
212
PIP4xx (ORIS OR-ing Intelligent Switch)
Vin/ Vout
(V)
min
Vin/ Vout
(V)
max
IO
(A)
DC max
IOM
(A)
t
Vin/ Vout
(mV)
@25A
toff
(ns)
Device Package
Name
1.3 12 75 400 60 400 PIP401 SOT427
Powerful solutions for DC/DC Conversion 9397 750 10455
Power Management - Semiconductor solutions for desktops, servers and workstations 9397 750 10586
Why choose
Philips Semiconductors?
Related literature
Title Order code
SOD87
*Better Current/Power Capability than SMA - Can be used in a
wider range of applications with higher current/power than a
standard 1A SMA
*Smaller than SMA equivalents - Aids miniaturisation of board space
requirements, key to most SMD applications
Features and benefits over plastic devices
*Device Hermetically sealed - No moisture ingress. Better than
plastic equivalents
*Good Avalanche Energy Absorption - This benefit overcomes
problems caused by noisy lines in various circuitry such as input
rectification
*Glass Package - Reduced risk of diode thermal runaway, due to a
higher maximum operating temperature of the device compared
to plastic equivalents
General Purpose Rectifiers
types in bold red represent new products
VRRM
(V)
IO(AV) / IF(AV)
(A)
VF
(V)
@IF
(A)
SINGLE/
DUAL
SOD87
50 1.6 1.1 1 SINGLE PRLL4001
100 1.6 1.1 1 SINGLE PRLL4002
200 1.5 1.05 1 SINGLE BYD17D
200 1.8 1.05 1 SINGLE PS07D
400 1.5 1.05 1 SINGLE BYD17G
400 1.8 1.05 1 SINGLE PS07G
600 1.5 1.05 1 SINGLE BYD17J
600 1.8 1.05 1 SINGLE PS07J
800 1.5 1.05 1 SINGLE BYD17K
1000 1.5 1.05 1 SINGLE BYD17M
SOD87 hermetically sealed, surface-mount glass package for rectifiers and voltage regulators 9397 750 11794
Diodes and Rectifiers
Why choose
Philips Semiconductors?
Related literature
Title Order code
215
Power Management
SOD87
*
Better Current/Power Capability than SMA - Can be used in a wider range
of applications with higher current/power than a standard 1A SMA
*Smaller than SMA equivalents - Aids miniaturisation of board space
requirements, key to most SMD applications
Features and benefits over plastic devices
*Device Hermetically sealed - No moisture ingress. Better than plastic
equivalents
*Good Avalanche Energy Absorption - This benefit overcomes problems
caused by noisy lines in various circuitry such as input rectification
*Glass Package - Reduced risk of diode thermal runaway, due to a higher
maximum operating temperature of the device compared to plastic
equivalents
www.semiconductors.philips.com
214
Zener Diodes
TVS peak
power rating
(W)
Zener total
power rating
(W)
Zener working
voltage
(V)
TVS stand-off
voltage
(V)
SOD87
150 2.3 7.5 6.2 BZD27-C7V5
150 2.3 8.2 6.8 BZD27-C8V2
150 2.3 9.1 7.5 BZD27-C9V1
150 2.3 10 8.2 BZD27-C10
150 2.3 11 9.1 BZD27-C11
150 2.3 12 10 BZD27-C12
150 2.3 13 11 BZD27-C13
150 2.3 15 12 BZD27-C15
150 2.3 16 13 BZD27-C16
150 2.3 18 15 BZD27-C18
150 2.3 20 16 BZD27-C20
150 2.3 22 18 BZD27-C22
150 2.3 24 20 BZD27-C24
150 2.3 27 22 BZD27-C27
150 2.3 30 24 BZD27-C30
150 2.3 33 27 BZD27-C33
150 2.3 36 30 BZD27-C36
150 2.3 39 33 BZD27-C39
150 2.3 43 36 BZD27-C43
150 2.3 47 39 BZD27-C47
150 2.3 51 43 BZD27-C51
150 2.3 56 47 BZD27-C56
150 2.3 62 51 BZD27-C62
150 2.3 68 56 BZD27-C68
150 2.3 75 62 BZD27-C75
150 2.3 82 68 BZD27-C82
150 2.3 91 75 BZD27-C91
150 2.3 100 82 BZD27-C100
150 2.3 110 91 BZD27-C110
150 2.3 120 100 BZD27-C120
150 2.3 130 110 BZD27-C130
150 2.3 150 120 BZD27-C150
150 2.3 160 130 BZD27-C160
150 2.3 180 150 BZD27-C180
150 2.3 200 160 BZD27-C200
150 2.3 220 180 BZD27-C220
150 2.3 240 200 BZD27-C240
150 2.3 270 220 BZD27-C270
150 2.3 300 240 BZD27-C300
150 2.3 330 270 BZD27-C330
150 2.3 360 300 BZD27-C360
150 2.3 390 330 BZD27-C390
150 2.3 430 360 BZD27-C430
150 2.3 470 390 BZD27-C470
150 2.3 510 430 BZD27-C510
SOD87 hermetically sealed, surface-mount glass
package for rectifiers and voltage regulators
9397 750 11794
Why choose
Philips Semiconductors?
bra283
BZD142W-100
Zener Diode
"One for two": use one package for two functions!
Zener Voltage (V)
Package Identifier:
D***W = SOD87
ZenBlock part numbering
Vo
ZENBLOCK
CONTROL
mld682
ZenBlock in a flyback converter
ZenBlock
*Zener & Blocking function in one package, means fewer compo-
nents, leading to a reduction in space used on circuit boards
Benefits of ZenBlock over RCD or RC snubber
*Lowered EMI by reducing the drain clamp circuit length & area
*Optimal clamp performance at all loads
*Higher efficiency at low loads
*Excellent stability due to glass passivation technology
Flyback converters showing various snubber topologies
mbl156
ZenBlock
Working
voltage
(V)
Power
dissipation
(W)
TVS stand-off
voltage
(V)
TVS peak
power rating
(W)
VR
(V)
Ersm
(mJ)
SOD87
68 1.5 56 100 600 7.5 BZD142W-68
100 1.5 82 100 600 7.5 BZD142W-100
160 1.5 130 100 600 7.5 BZD142W-160
180 1.5 150 100 600 7.5 BZD142W-180
200 1.5 160 100 600 7.5 BZD142W-200
Diodes and Rectifiers
Why choose
Philips Semiconductors?
MSD838
217
Damper and Modulator Diodes
Power Management
Damper and modulator diodes
*Complete range of high voltage damper diodes ranging from 500
to 1700 V
*Low loss, low Vf and fast switching characteristics ideally for all TV
and Monitor applications
*Full range of industry standard packages
*Fully compatible with Philips Semiconductors Range of Deflection
Transitiors
*The BYM range offers dual damper/modulator diode combina-
tions, simplifying circuit layout and reducing component count
www.semiconductors.philips.com
216
Damper and Modulator Diodes
VRRM
(V)
IF(av)
(A)
VF(max)
(V)
Vfr(typ)
(V)
tfr(typ)
(ns)
trr(max)
(ns)
Single / Dual SOD113
(2-pin
SOT186A)
SOD59
(TO220AC)
SOT186A
2-pin
SOT399
(TOP3D)
200 8 1.85 15 180 135 Single BY229X-200
400 8 1.85 15 180 135 Single BYV29-400
600 8 1.85 15 180 135 Single BY229X-600 BY229-600
800 8 1.85 14 180 135 Single BY229X-800
1000 8 1.85 15 180 135 Single BY329-1000
1200 8 1.85 15 180 135 Single BY329X-1200 BY329-1200
1500 7 1.45 17 210 230 Single BY329X-1500
1500 7 1.6 23 220 160 Single BY329X-1500S BY329-1500S
1500 10 1.5 11 280 600 Single BY359X-1500 BY359-1500
1500 10 2 17 280 350 Single BY359X-1500S
1500 20 1.3 8 170 350 Single BY459X-1500 BY459-1500
1500 20 1.35 11 200 220 Single BY459X-1500S
1500/ 600 60/ 70 Dual BYM357X BYM357DX
1500/ 600 60/ 70 Dual BYM358X
1500/ 800 60/ 70 Dual BYM359X
1500/ 800 60/ 70 Dual BYM359DX
Fast Soft-Recovery Diodes
types in bold red represent new products
VRRM
(V)
IO(AV)/IF(AV)
(A)
trr
(ns)
SOD87 SOD59 SOD113
200 1.5 250 BYD37D
200 1.7 250 PRS07D
200 8 135 BY229X-200
400 1.5 250 BYD37G
400 1.7 250 PRS07G
600 1.5 250 BYD37J
600 1.7 250 PRS07J
600 8 135 BY229-600 BY229X-600
800 1.5 300 BYD37K
800 8 135 BY229X-800
1000 1.5 300 BYD37M
1000 8 135 BY329-1000
1200 8 135 BY329-1200 BY329X-1200
2000 0.8 300 BYD47-20
Why choose
Philips Semiconductors?
Benefits of Hyperfast Recovery Diodes
*600V Hyperfast diodes are optimised for power factor correction
(PFC) circuits.They feature:
*fast reverse recovery (trr) of typically 19 ns
*low forward Vf
*100V Hyperfast diodes are optimised for low power battery
chargers
PFC & Hyperfast Recovery Diodes
VRRM
(V)
IO(AV) / IF(AV)
(A)
trr
(ns)
SOD87 D2-PAK
(SOT404)
TO220AC
(SOD59)
TO220AB
(SOT78)
100 1.7 10 BYD1100
600 5 19 BYC5B-600 BYC5-600
600 8 19 BYC8B-600 BYC8-600
600 10 19 BYC10B-600 BYC10-600
600 2 x 5 19 BYC10-600CT
219
Power Management
Diodes and Rectifiers
www.semiconductors.philips.com
218
Ultrafast Recovery Diodes
VRRM
(V)
IO(AV) / IF(AV)
(A)
VF
(V)
@IF
(A)
trr
(ns)
SINGLE/
DUAL
SOD87 DPAK
(SOT428) D2PAK
(SOT404)
SOD113
(2-pin SOT186A)
SOD59
(TO220AC)
SOT186A
(isolated
TO220AB)
TO220AB
(SOT78)
TO247
(SOT429)
50 2 0.98 1 25 SINGLE BYD77A
100 2 0.98 1 25 SINGLE BYD77B
100 20 0.95 8 25 DUAL (2 x 10A) BYV32E-100
150 2 0.98 1 25 SINGLE BYD77C
150 8 0.895 8 25 SINGLE BYW29E-150
150 20 0.85 8 25 DUAL (2 x 10A) BYV32E-150
150 30 0.85 15 28 DUAL (2 x 15A) BYV42E-150
200 2 0.93 1 25 SINGLE BYD127
200 2 0.98 1 25 SINGLE BYD77D
200 8 0.895 8 25 SINGLE BYW29ED-200 BYW29E-200 BYW29EX-200
200 10 0.895 5 25 DUAL (2 x 5A) BYQ28ED-200 BYQ28X-200 BYQ28E-200
200 14 0.9 14 30 SINGLE BYV79E-200
200 16 0.95 8 25 DUAL (2 x 8A) BYQ30E-200
200 20 0.85 8 25 DUAL (2 x 10A) BYV32EB-200 BYV32E-200
200 30 0.82 15 28 DUAL (2 x 15A) BYV72EW-200
200 30 0.85 15 28 DUAL (2 x 15A) BYV42E-200
200 40 0.85 20 30 DUAL (2 x 20A) BYQ40EW-200
300 10 1.05 5 60 DUAL (2 x 5A) BYT28-300
400 1 3.6 1 30 SINGLE BYD57G
400 2 1.15 1 50 SINGLE BYD147
400 1.85 1.05 1 50 SINGLE BYD77G
400 9 1.03 8 60 SINGLE BYV29-400
400 20 1.05 10 60 DUAL (2 x 10A) BYV34-400
400 30 1.12 15 60 DUAL (2 x 15A) BYV74W-400
500 9 1.03 8 60 SINGLE BYV29X-500 BYV29-500
500 10 1.05 5 60 DUAL (2 x 5A) BYT28-500
500 14 1.05 15 60 SINGLE BYT79-500
500 20 1.05 10 60 DUAL (2 x 10A) BYV34-500
500 30 1.12 15 60 DUAL (2 x 15A) BYV44-500
600 1 3.6 1 30 SINGLE BYD57J
600 2 1.25 1 50 SINGLE BYD167
600 8 1.5 8 75 SINGLE BYR29X-600 BYR29-600
600 9 1 5 55 SINGLE BYV29B-600 BYV29X-600
800 1 3.6 1 75 SINGLE BYD57K
800 8 1.5 8 75 SINGLE BYR29-800
1000 1 3.6 1 75 SINGLE BYD57M
1400 1.2 3.6 1 150 SINGLE BYD57V
+
−
Related literature
Title Order code
Battery Charger, Computer Power Supply (Forward/Flyback
Converter)
SOD87 hermetically sealed, surface-mount glass package for rectifiers and voltage regulators 9397 750 11794
MSD115
Why choose
Philips Semiconductors?
Ripple Blocking Diodes
*Glass passivated for excellent stability under all conditions
*Fast rectifier with guaranteed minimum turn-on time for absorbing
forward current transients and oscillations
...SOD87
*even smaller package than SMA
*better current handling capability than SMA (1.5 A SOD87 vs 1 A)
Ripple Blocking Diodes
IO(AV) / IF(AV)
(A)
VRRM
(V)
VF
(V)
@IF
(A)
SOD87
1.2 300 2.3 1.7 BYD67
221
Power Management
Power MOSFETs
types in bold red represent new products
types in bold red italic underlined represent products in development
www.semiconductors.philips.com
220
12 V - 50 V N-Channel MOSFETs
VDS
(V)
MAX
RDS(ON)
(Ω)
@VGS
(V)
ID
(max)
@ 25°C
(A)
Technology SOT223 SO8
(SOT96)
SOT23 D2PAK
(SOT404)
SOT363 SOT323 SOT416 TSOP6
(SOT457)
LFPAK
(SOT669)
D-PAK
(SOT428)
TO220AB
(SOT78)
I-pak
(SOT533)
TO247
(SOT429)
12 0.034 4.5 5.7 TrenchMOS PMN28UN
20 0.0025 4.5 121 TrenchMOS PH2520U
20 0.0034 4.5 100 TrenchMOS PH3120L
20 0.0057 2.5 21 TrenchMOS PSMN006-20K
20 0.0205 2.5 5 TrenchMOS
20 0.019 4.5 5 TrenchMOS
20 0.03 4.5 5 TrenchMOS
20 0.085 4.5 2.5 TrenchMOS PMV56XN
20 0.085 4.5 2.5 TrenchMOS SI2302DS
20 0.024 4.5 6.6 TrenchMOS
20 0.25 2.5 1.05 VDMOS BSH105
20 0.0275 4.5 5.7 Tr enchMOS PMN23UN
20 0.034 4.5 5.7 TrenchMOS PMN27UN
20 0.04 4.5 5.7 Tr enchMOS PMN34LN
20 0.82 4.5 4.1 Tr enchMOS PMN55LN
20 0.021 5 38 TrenchMOS PHB38N02LT PHD38N02LT
20 0.036 4.5 6 TrenchMOS PMV30UN
20 0.037 4.5 5.9 TrenchMOS PMV31XN
20 0.34 4.5 1.02 TrenchMOS PMF280UN PMR280UN
20 0.35 4.5 1 TrenchMOS PMF290XN PMR290XN
25 0.0026 10 75 TrenchMOS PSMN002-25B PSMN002-25P
25 0.0027 10 100 Tr enchMOS PH2625L
25 0.0029 4.5 113 TrenchMOS PH2925U
25 0.0032 10 100 Tr enchMOS PSMN003-25W
25 0.004 10 75 TrenchMOS
PHB152NQ03LTA
PHP152NQ03LTA
25 0.004 10 75 TrenchMOS PHD152NQ03LT
25 0.0059 10 75 TrenchMOS PHB98N03LT
25 0.0059 10 75 TrenchMOS PHD98N03LT
25 0.0063 10 78 TrenchMOS PH6325L
25 0.00495 10 75 Tr enchMOS PHB96NQ03LT PHP96NQ03LT
25 0.00495 10 75 Tr enchMOS PHD96NQ03LT
25 0.0046 10 75 TrenchMOS PHD110NQ03LT
25 0.006 10 75 TrenchMOS PHB108NQ03LT PHD108NQ03LT
25 0.006 10 75 TrenchMOS
PHU108NQ03LT
25 0.009 10 75 TrenchMOS PHB78NQ03LT PHD78NQ03LT PHP78NQ03LT PHU78NQ03LT
25 0.0058 10 75 TrenchMOS PSMN005-25D
25 0.012 10 66 TrenchMOS PHB66NQ03LT PHD66NQ03LT PHP66NQ03LT PHU66NQ03LT
25 0.014 10 55 TrenchMOS PHB55N03LTA PHD55N03LTA PHP55N03LTA
25 0.021 10 45 TrenchMOS PHD45N03LTA PHP45N03LTA
30 0.0028 10 75 TrenchMOS PSMN003-30B PSMN003-30P
30 0.0032 10 107 Tr enchMOS PH3230S
30 0.0033 10 100 Tr enchMOS PH3330L
30 0.0038 10 98 TrenchMOS PH3830L
30 0.0057 10 80 TrenchMOS PH4530L
30 0.0052 10 31 TrenchMOS PHK31NQ03LT
30 0.0057 10 80 TrenchMOS PH5330E
30 0.0055 10 20 TrenchMOS PSMN005-30K
30 0.0055 10 75 TrenchMOS PHD101NQ03LT PHP101NQ03LT PHU101NQ03LT
30 0.0065 10 28 TrenchMOS PHK28NQ03LT
30 0.0079 10 68 TrenchMOS PH7030L
30 0.0072 10 70 TrenchMOS PH8030L
30 0.008 10 75 TrenchMOS PHD82NQ03LT
30 0.0082 10 67 TrenchMOS PH8230E
30 0.009 10 12.5 TrenchMOS PHK18NQ03LT
30 0.009 10 12.5 TrenchMOS SI4420DY
30 0.01 10 71 TrenchMOS PHD71NQ03LT PHP71NQ03LT
30 0.013 10 63 TrenchMOS PHD63NQ03LT PHP63NQ03LT
30 0.0135 10 10 TrenchMOS SI4410DY
223
Power Management
Power MOSFETs
types in bold red represent new products
types in bold red italic underlined represent products in development
www.semiconductors.philips.com
222
12 V - 50 V N-Channel MOSFETs
VDS
(V)
MAX
RDS(ON)
(Ω)
@VGS
(V)
ID
(max)
@ 25°C
(A)
Technology SOT223 SO8
(SOT96)
SOT23 D2PAK
(SOT404)
SOT363 SOT323 SOT416 TSOP6
(SOT457)
LFPAK
(SOT669)
D-PAK
(SOT428)
TO220AB
(SOT78)
I-pak
(SOT533)
TO247
(SOT429)
30 0.014 4.5 12 TrenchMOS PHK12NQ03LT
30 0.0169 10 47 TrenchMOS PH16030L
30 0.0165 4.5 12 TrenchMOS PI4884
30 0.018 10 9 TrenchMOS SI4800
30 0.02 10 13 TrenchMOS PHK13N03LT PHD36N03LT
30 0.023 4.5 5 TrenchMOS
30 0.0235 2.5 5 TrenchMOS
30 0.03 10 11 TrenchMOS BSP030 PHN103T
30 0.033 4.5 5 TrenchMOS
30 0.042 10 5.4 TrenchMOS PMV45EN
30 0.045 4.5 5.4 TrenchMOS PMN40LN
30 0.046 4.5 4.9 TrenchMOS PMN34UN
30 0.047 4.5 4.9 TrenchMOS PMV40UN
30 0.05 4.5 5.2 Tr enchMOS PMN45EN
30 0.055 10 4.7 TrenchMOS PMV60EN
30 0.1 10 16 TrenchMOS PHD16N03T
30 0.1 4.5 16 Tr enchMOS PHD16N03LT
30 0.1 10 6 TrenchMOS BSP100
30 0.1 10 2 x 3.4 TrenchMOS PHN210T
30 0.117 10 1.7 TrenchMOS PMV117EN
30 0.117 10 1.7 TrenchMOS SI2304DS
30 0.12 10 1.9 TrenchMOS BSH108
30 0.44 4.5 0.87 TrenchMOS PMG370XN PMF370XN PMR370XN
30 0.48 4.5 0.83 TrenchMOS PMF400UN PMR400UN
30 0.5 2.5 0.85 VDMOS BSH103
30 8 4 0.125 TrenchMOS
36 0.004 10 75 TrenchMOS PSMN004-36B
40 0.0041 10 94 TrenchMOS PH4840S
40 0.0076 10 24 TrenchMOS PHK24NQ04LT
40 0.0032 5 75 Tr enchMOS PHB222NQ04LT PHP222NQ04LT
40 0.0031 10 75 TrenchMOS PHB225NQ04T PHP225NQ04T
40 0.0044 5 75 Tr enchMOS PHB174NQ04LT PHP174NQ04LT
40 0.0043 10 75 TrenchMOS PHB176NQ04T PHP176NQ04T
40 0.0064 5 75 Tr enchMOS PHB129NQ04LT PHP129NQ04LT
40 0.0052 10 75 TrenchMOS PHB143NQ04T PHP143NQ04T
40 0.009 5 75 TrenchMOS PHB95NQ04LT
40 0.008 10 75 TrenchMOS PHB101NQ04T PHP101NQ04T
50 15 10 0.17 TrenchMOS BSN20
Related literature
Title Order code
MSD991
= Ultra Low - 8 VGS
= Extremely Low - 12 VGS
= Logic level - 15 VGS
= Enhanced Logic - 20 VGS
= Standard - 30 VGS
Philips - Micro
(µ)TrenchMOSTM
RDS(ON) in m½
=N-channel
=P-channel
!
"
#
$
%
&
= TSOP6 (SOT457)
= TSSOP8
= SOT23
= SC88 (SOT363)
= SC70 ((SOT323)
= SC75 (SOT416)
= SC89 (SOT490)
= SOT666
= MCD
µTrenchMOS part numbering
SiliconMAX - Unsurpassed performance for SMPS and
DC/DC converter applications
9397 750 13853
µTrenchMOS a new dimension in power brochure 9397 750 11213
µTrenchMOS - 30, 20 and 12 V N-Channel MOSFETs in
TSOP6
9397 750 11188
µTrenchMOS - Dual MOSFETs in TSSOP8 9397 750 10823
µTrenchMOS - 100, 30 and 20 V N-Channel MOSFETs in
SOT23
9397 750 11036
µTrenchMOS - 20, 30 and 60V -N Channel MOSFETs in
SOT323 & SOT363
9397 750 11208
µTrenchMOS - 20, 30 and 60V N Channel MOSFETs in
SOT416 (SC-75)
9397 750 13081
Powerful solutions for DC/DC Conversion 9397 750 10455
Cool Solutions for DC/DC Conversion 9397 750 10247
Extending our LFPAK portfolio 9397 750 13688
msd976
=D
2PAK (SOT404)
= DPAK (SOT428)
= SO8 (SOT96)
= TO220AB (SOT78)
= TO247 (SOT429)
=N-channel
Philips SiliconMAX
voltage (V)
RDS(ON) (m
Ω
)
SiliconMAX part numbering
Power MOSFETs
Why choose
Philips Semiconductors?
225
VOUT = 12 V at 1 A
VOUT = 5 V at 1 A
0 V0 V
VIN = 5 V
VIN = 12 V
floppy drive
bra201
CONTROL
IC
Hard drive load switch
bra205
data2
clock2
data1
VDD1 (3.3 V) VDD2 (5 V)
clock1
3.3 V
CIRCUIT
5 V
CIRCUIT
I2C bus level shifting
bra206
sounderLEDrelay
VCC
0 V
General purpose load switching
battery −
battery +
battery
bra202
CONTROL IC
VCC
VG
sense
sense
VG
Li-ion Battery Protection
Power Management
µTrenchMOS
*As a technology leader, Philips continues to develop new power
devices delivering essential solutions for today´s rapidly moving
market. µTrenchMOS is a new product portfolio exploiting Philips´
core competencies in both innovative Trench technology and pack-
age miniaturization.These small devices help designers meet the
demanding requirements of motor, load and switching circuits in
compact, portable and battery operated appliances.
Benefits
*Small Footprint Packages - space saving
*Low R
DS(ON) - reduced power dissipation for cooler running
applications
www.semiconductors.philips.com
224
power
source load
bra207
Floating' load switch
PWM
CONTROLLER
bra214
VCC
VOUT
0 V
Single-phase, low power, non-synchronous DC-DC converter (PoL)
12 V - 300 V P-Channel MOSFETs
types in bold red represent new products
types in bold red italic underlined represent products in development
VDS
(V)
MAX
RDS(ON)
(Ω)
@VGS
(V)
IDS
(A)
Configuration SOT223 SOT23 SOT363 TSOP6
(SOT457)
SOT96
(SO8)
TO92
(SOT54)
12 0.15 2.5 2 Single P-channel BSH207
12 0.5 2.5 1.01 Single P-channel BSH206
16 0.15 2.5 2 Single P-channel PHK04P02T
20 0.042 4.5 7.3 Single P-channel PMK35XP
20 0.059 4.5 4.3 Single P-channel PMN50XP
20 0.076 4.5 3.8 Single P-channel PMV65XP
30 0.25 10 2 x 2.5 Dual P-channel PHP225
30 0.25 10 3 Single P-channel BSP250
30 1.1 2.5 0.57 Single P-channel BSH203
50 10 10 0.13 Single P-channel BSS84
200 12 10 0.225 Single P-channel BSP220
250 15 10 0.225 Single P-channel BSP225 BSP254A
300 17 10 0.21 Single P-channel BSP230
12 V - 50 V N-Channel MOSFETs
bra200
CONTROL
Synchronous Rectification
PWM
CONTROLLER
bra213
VCC
VOUT
0 V
Single-phase DC-DC converter (PoL)
Typical applications for µTrenchMOS
Typical applications for <30V MOSFETs
227
Power Management
Power MOSFETs
types in bold red represent new products
types in bold red italic underlined represent products in development
www.semiconductors.philips.com
226
55 V - 60 V N-Channel MOSFETs
VDS
(V)
MAX
RDS(ON)
(Ω)
@VGS
(V)
ID
(max)
@ 25°C
(A)
SOT323 SOT223 SOT416 SOT23 D2PAK
(SOT404)
DPAK
(SOT428)
LFPAK
(SOT669)
TO220AB
(SOT78)
TO247
(SOT429)
TO92
(SOT54)
55 0.004 10 75 PHB193NQ06T PHP193NQ06T
55 0.0042 5 75 PHB191NQ06LT PHP191NQ06LT
55 0.0042 10 100 PSMN004-55W
55 0.0058 10 75 PSMN005-55B PSMN005-55P
55 0.006 5 75 PHB146NQ06LT
55 0.006 10 75 PHB145NQ06T
55 0.0071 10 75 PHB119NQ06T PHP119NQ06T
55 0.008 10 75 PHP112N06T
55 0.008 10 85 PH955L
55 0.0084 5 75 PHB110NQ06LT PHP110NQ06LT
55 0.0105 10 75 PSMN010-55D
55 0.018 10 60 PH1955L
55 0.02 10 54 PHP54N06T
55 0.035 5 37 PHD37N06LT
55 0.04 10 40 PH3855L
55 0.075 5 19 PHB21N06LT PHP21N06LT
55 0.075 10 20 PHB20N06T PHP20N06T
55 0.077 10 18 PHD20N06T
55 0.08 5 7.5 PHT8N06LT
55 0.15 5 5.5 PHT6N06LT
55 0.15 10 5.5 PHT6N06T
55 0.15 5 10.3 PHB11N06LT
55 5 2.5 0.3 BSH121 BSH111
60 0.0036 10 75 PSMN004-60B PSMN004-60P
60 0.012 10 75 PHP83N06T
60 0.014 10 73 PHB73N06T PHP73N06T
60 0.022 10 52 PHP52N06T
60 0.04 5 32 PHB32N06LT PHP32N06LT
60 0.15 10 10.3 PHD3055E PHP3055E
60 0.92 10 0.49
60 0.92 10 0.57 PMF780SN PMR780SN
60 2 10 0.475 2N7002F
60 3 10 0.385 2N7002E
60 4.5 10 0.3 PMF3800SN
60 5 10 0.3 2N7000
60 5 10 0.3 PMBF170
60 5 10 0.3 2N7002
60 5 10 0.3 BSH112
60 5 10 0.3 2N7002K
Why choose
Philips Semiconductors?
...SiliconMAX
*Philips Semiconductors´ SiliconMAX power MOSFET range brings
the benefits of ultra-low RDS(ON) and high-speed switching to
applications requiring transistors with voltage ratings up to 200 V.
By significantly reducing power dissipation, these high-performance
MOSFETs enable many applications to move from through-hole to
SMD packages
*Lower RDS(ON) for the same size transistor package
*Smaller package size for the same RDS(ON) value and/or reduced
component count
*High-speed, low-loss switching performance
*Replacement of through-hole mounting power packages with
surface-mount devices
*Reduced heat-sinking requirement
*Low system cost and higher performace
Related literature
Title Order code
SiliconMAX - Unsurpassed performance for SMPS and DC/DC converter applications 9397 750 13853
msd976
=D
2PAK (SOT404)
= DPAK (SOT428)
= SO8 (SOT96)
= TO220AB (SOT78)
= TO247 (SOT429)
=N-channel
Philips SiliconMAX
voltage (V)
RDS(ON) (m
Ω
)
SiliconMAX part numbering
MSD975
=D
2PAK (SOT404)
= DPAK (SOT428)
= TO220AB (SOT78)
= SOT223
= SOT186A (isolated TO220AB)
= TO247 (SOT429)
= logic level Trench
Philips
current - ID(A)
=N-channel
=Q-TrenchTM
Low Gate Charge
(QGD)
series
%
voltage
30 V
55 V
TrenchMOSTM - PH types part numbering
Power MOSFETs
Why choose
Philips Semiconductors?
229
Power Management
www.semiconductors.philips.com
228
25 V - 300 V Multi-Chip MOSFETs (N-Channel/P-Channel/Complementary)
types in bold red represent new products
VDS
(V)
MAX
RDS(ON)
(Ω)
@VGS
(V)
IDS
(A)
Configuration SO8
(SOT96)
SO24
(SOT137) SOT363
TSSOP8
(SOT530)
20 2 x 0.0205 2.5 5 Dual common
drain
PMWD15UN
20 2 x 0.019 2.5 5 Dual common
drain
PMWD16UN
20 2 x 0.03 2.5 5 Dual common
drain
PMWD26UN
20 2 x 0.34 4.5 1.02 Dual N-channel PMGD280UN
20 2 x 0.35 4.5 1 Dual N-channel PMGD290XN
20 2 x 0.024 4.5 6.6 Dual common
drain
PMWD20XN
25 2 x 0.02 52 x 6 Dual N-channel PHKD6N02LT
25 6 x 0.035 (MOS)
6 x 5A (Schottky)
10 5.5 N-channel +
Schottky array
PHN603S
25 2 x 0.03 10 2 x 6.3 Dual N-channel PHN203
30 2 x 0.0235 2.5 5 Dual common
drain
PMWD18UN
30 2 x 0.0235 2.5 5 Dual N-channel PMWD30UN
30 2 x 8 4 0.125 Dual N-channel PMGD8000LN
30 2 x 0.44 4.5 0.87 Dual N-channel PMGD370XN
30 2 x 0.48 4.5 0.83 Dual N-channel PMGD400UN
30 2 x 0.023 4.5 5 Dual N-channel PMWD19UN
30 0.1 (N) / 0.25 (P) 10 3.5 (N) / 2.3 (P) Complementary
Pair
PHC21025
30 2 x 0.1 10 2 x 3.4 Dual N-channel PHN210T
30 2 x 0.022 10 2 x 7 Dual N-channel PHKD13N03LT
30 2 x 0.05 10 2 x 5 Dual N-channel SI9936DY
30 2 x 0.25 10 2 x 2.3 Dual P-channel PHP225
60 2 x 0.92 10 0.49 Dual N-channel PMGD780SN
100 2 x 0.09 10 2 x 3 Dual N-channel PHKD3NQ10T
300 8 (N) / 17 (P) 10 0.3 (N) / 0.2 (P) Complementary
Pair
PHC2300
231
Power Management
Power MOSFETs
types in bold red represent new products
www.semiconductors.philips.com
230
75 V - 300 V N-Channel MOSFETs
VDS
(V)
MAX
RDS(ON)
(Ω)
@VGS
(V)
QGD
(typ)
(nC)
ID
(max)
@25°C
(A)
SOT223 SOT23 I PAK
(SOT533)
SOT89 D2PAK
(SOT404)
DPAK
(SOT428)
QLPAK
(SOT685)
LFPAK
(SOT669)
SO8
(SOT96)
TO220AB
(SOT78)
SOT186A
(isol TO220AB)
TO92
(SOT54)
TO247
(SOT429)
75 0.005 10 50 75 PSMN005-75B PSMN005-75P
75 0.0056 10 28 75 PHB160NQ08T PHP160NQ08T
75 0.0061 5 37 75 PHB153NQ08LT PHP153NQ08LT
75 0.0085 10 50 75 PSMN008-75B PSMN008-75P
75 0.009 5 54.5 75 PHB110NQ08LT PHP110NQ08LT
75 0.009 10 48.2 75 PHB110NQ08T PHP110NQ08T
75 0.028 10 9 30 PH3075L
75 0.05 10 9 27 PHB29N08T PHP29N08T
100 10 5 0.52 BSP110
100 10 5 0.19 BST82 BST72A
100 0.0088 10 44 75 PSMN009-100B PSMN009-100P
100 0.009 10 91 100 PSMN009-100W
100 0.015 10 50 75 PSMN015-100B PSMN015-100P
100 0.015 10 50 80 PHW80NQ10T
100 0.02 10 11.5 30 PHM30NQ10T
100 0.023 10 9 34 PH20100S
100 0.025 10 25 47 PHB45NQ10T PSMN025-100D PHP45NQ10T
100 0.028 10 25 47 PHB47NQ10T PHP47NQ10T
100 0.03 10 6.6 25 PHM25NQ10T
100 0.028 10 9 12 PHK12NQ10T
100 0.038 10 14 5.2 PSMN038-100K
100 0.04 10 18 34 PHD34NQ10T PHP34NQ10T
100 0.051 10 12 28 PHB27NQ10T
100 0.07 10 10 23 PHD23NQ10T
100 0.07 10 29 (MAX) 23 IRF540
100 0.07 10 10 4 PHK4NQ10T
100 0.09 10 8 2x3 PHKD3NQ10T
100 0.09 10 8 18 PHB18NQ10T PHD18NQ10T PHP18NQ10T
100 0.1 10 8.2 6 PHT6NQ10T
100 0.11 10 19 (MAX) 17 IRF530N
100 0.18 10 5 11 PHU11NQ10T
100 0.25 10 3.5 PHT4NQ10T
100 0.25 5 3.5 PHT4NQ10LT
100 0.25 10 2.5 1.9 PMV213SN
100 0.43 10 2 PHT2NQ10T
100 0.5 10 2.1 0.85 BSH114
100 6 10 0.15 BSS123
110 0.015 10 50 75 PSMN015-110P
110 0.07 10 10 23 PHP23NQ11T
110 0.05 10 12 28 PHP27NQ11T
110 0.04 10 18 35 PHP34NQ11T
105 0.025 10 25 47 PHP45NQ11T
110 0.18 10 5.3 7.5 PHX8NQ11T
110 0.07 10 10 16 PHX23NQ11T
110 0.05 10 12 20.8 PHX27NQ11T
110 0.04 10 18 24.8 PHX34NQ11T
110 0.025 10 25 30.4 PHX45NQ11T
150 0.025 10 25 47 PSMN020-150W
150 0.03 10 38 55.5 PSMN030-150B
150 0.03 10 38 55.5 PSMN030-150P
150 0.035 10 33 50 PSMN035-150B PSMN035-150P
150 0.042 10 10.3 33 PHB45NQ15T PHP45NQ15T
150 0.055 10 11.6 21 PHM21NQ15T
150 0.063 10 20 29 PSMN063-150D PHP30NQ15T
150 0.068 10 7.7 28 PHP28NQ15T
150 0.085 10 14 3.5 PSMN085-150K
150 0.075 10 12 18 PHM18NQ15T
150 0.075 10 12 5.5 PHK5NQ15T
233
Power Management
Power MOSFETs
types in bold red represent new products
www.semiconductors.philips.com
232
75 V - 300 V N-Channel MOSFETs
VDS
(V)
MAX
RDS(ON)
(Ω)
@VGS
(V)
QGD
(typ)
(nC)
ID
(max)
@25°C
(A)
SOT223 SOT23 I PAK
(SOT533)
SOT89 D2PAK
(SOT404)
DPAK
(SOT428)
QLPAK
(SOT685)
LFPAK
(SOT669)
SO8
(SOT96)
TO220AB
(SOT78)
SOT186A
(isol TO220AB)
TO92
(SOT54)
TO247
(SOT429)
150 0.2 10 8 12.5 PHP12NQ15T
200 0.04 10 73 50 PSMN040-200W
200 6 10 0.28 BSS87
200 5 2.8 0.25 BS108
200 2.5 10 0.55 BSP122
200 0.057 10 37 39 PSMN057-200P
200 0.057 10 37 39 PSMN057-200B
200 0.07 10 28 35 PSMN070-200B PSMN070-200P
200 0.077 10 9.6 25 PHB33NQ20T PHP33NQ20T
200 0.085 10 12.7 15 PHM15NQ20T
200 0.12 10 8.9 22 PHD22NQ20T
200 0.13 10 22 20 PHB20NQ20T PSMN130-200D PHP20NQ20T
200 0.13 10 8.7 12 PHM12NQ20T
200 0.13 10 8.7 4 PHK4NQ20T
200 0.165 10 14 2.5 PSMN165-200K
200 0.18 10 22 8.2 PHX18NQ20T
200 0.18 10 35 (MAX) 16 IRF640
200 0.23 10 13.3 14 PHD14NQ20T PHP14NQ20T
200 0.23 10 13.3 7.6 PHX14NQ20T
200 0.4 10 12 9 PHB9NQ20T PHD9NQ20T PHP9NQ20T
200 0.4 10 12 5.2 PHX9NQ20T
200 0.8 10 8 4.8 IRFR220
240 5 10 0.35 BSP89
250 5 10 0.3 BSN254
250 5 10 0.35 BSP126
300 6 10 0.25 BSN304
Related literature
Title Order code
Powerful solutions for DC/DC Conversion 9397 750 10455
Cool Solutions for DC/DC Conversion 9397 750 10247
An introduction to low voltage DC motors AN10293_1
Low voltage DC motor control solutions 9397 750 14082
0 V
transformer
primary
bra209
VCC
Half-bridge converter -
primary side switches
0 V
transformer
primary
bra210
VCC
Full-bridge converter -
primary side switches
M
0 V
bra212
VCC
Full-bridge motor control
bra215
+48 V DC LOW POWER,
ISOLATED DC-DC
CONVERTER
INTERFACE
CONTROLLER
VOUT
0 V
Power over Ethernet (PoE) 'Powered Device' (PD)
to
powered
devices
INTERFACE CONTROLLER IC
bra216
Power over Ethernet (PoE) Switch/Router
MSD975
=D
2PAK (SOT404)
= DPAK (SOT428)
= TO220AB (SOT78)
= SOT223
= SOT186A (isolated TO220AB)
= TO247 (SOT429)
= logic level Trench
Philips
current - ID(A)
=N-channel
=Q-TrenchTM
Low Gate Charge
(QGD)
series
%
voltage
30 V
55 V
TrenchMOSTM - PH types part numbering
Why choose
Philips Semiconductors?
The low RDS(ON) features of the SiliconMAX portfolio and
the optimised switching performance of the TrenchMOS
portfolio provide designers with a MOSFET range optimised
for either lower power dissipation or low switching losses.
Philips MOSFETs are the ideal choice for demanding appli-
cations such as notebook adaptors, DC motor control appli-
cations and battery powered tools
Typical applications for 55V or > MOSFETs
Thyristors, (SCRs) Triacs and Trigger Devices
Why choose
Philips Semiconductors?
reversible
induction
motor
R-C
mains
dropper
bra197
+5 V
0 V
LPC
MICRO-
CONTROLLER
1N4148
BZX79C
5V6
L
N
56 Ω
BC557
motor run
capacitor
56 Ω
BC557
mains
supply
Related literature
Title Order code
235
Reversible induction motor controller
MSD849
!"
#
$
%
& '
(
)
!"#$%
&!"$#' &
Power Management
Three-quadrant triacs
*Wide range of triacs meets the needs of the general industrial and
home appliance O.E.M
*The most comprehensive, first choice range of three-quadrant
triacs offers enhanced immunity to loss of control and satisfies the
needs of the vast majority of triac applications
*Three-quadrant triacs do not require RC snubber networks or
dlcom/dt-limiting inductors, making power control circuitry more
compact, cheaper to assemble and reducing the overall bill of
materials
*Three-quadrant triacs offer improved circuit reliability as they are
less prone to false triggering from mains transients
*Logic level and sensitive gate three-quadrant triacs can be driven
directly by logic IC´s and microcontrollers.They provide simple
plug-in, high commutation replacements for existing industry parts
*Patented planar technologies have been optimised for stable volt-
age blocking at elevated temperatures, yielding long term reliability
in the application
*All devices are rated for the abnormal false trigger condition
(Max safe dIT/dt specified)
*The availability of three surface mount packages helps in stream-
lining PCB assembly and reducing costs
www.semiconductors.philips.com
234
Three-Quadrant Triacs
types in bold red represent new products
types in bold red italic underlined represent products in development
IT(RMS)
(A)
VOLTAGE
(V) IGT(max)
(mA)
SOT223 SOT428
DPAK
SOT404
D2PAK
SOT54
TO92
SOT186A
(isolated
TO220AB)
SOT78
TO220AB
1600 / 800 B/E BTA201
1 600 B/C/D/E/F BTA204W
1 800 C/E BTA204W
4 600 B/C/D/E/F BTA204S BTA204X BTA204
4 800 B/C/E BTA204S BTA204X BTA204
8 600 B/D/E/F BTA208S BTA208X BTA208
8 800 B/E BTA208S BTA208X BTA208
8 1000 B BTA208X
8 1000 C BTA208X
12 600 B/D/E/F BTA212B BTA212X BTA212
12 800 B/E BTA212B BTA212X BTA212
16 600 B/D/E/F BTA216B BTA216X BTA216
16 800 B BTA216B BTA216X BTA216
25 600 / 800 B BTA225B BTA225
25 600 B BTA225-xxxBT
51LPC microcontrollers and three-quadrant triacs - simplifying the design of power-control applications 9397 750 11102
Three-quadrant triacs - simplifying the design of power-control circuitry for non-resistive loads 9397 750 06551
AN467_1. Philips 51LPC microcontrollers and triacs easily connected 9397 750 07826
Application note:Three-quadrant triacs bring major benefits to OEMs 9397 750 06518
Application Note:Thyristors and Triacs - ten golden rules for success in your application 9397 750 00812
Product Application Info: Surface mounted triacs and thyristors 9397 750 02622
Fact sheet 013/014. "Hi-Com" - a three-quadrant triac 9397 750 06504
Fact sheet 067. Logic level and sensitive gate triacs 9397 750 00759
Three-quadrant triacs part numbering
Thyristors, (SCRs) Triacs and Trigger Devices
Why choose
Philips Semiconductors?
MSD850
! " #!$
%
& '
(
)
!"#$%
& #'(#)
#'(#)
*!"$#) *
Related literature
Title Order code
237
Four-quadrant triacs part numbering
bra198
4.7 kΩ
47 Ω
1 MΩ
68 nF
63 V
47 nF
250 V AC
Class X2
2.5 mH
inductor
lamps
40 to 400 W
L
N
230 V 50 Hz
supply
BR100/03
BT137-600
Lamp dimmer
Power Management
Four-quadrant triacs
*Large selection of four-quadrant triacs suits applications where the
load is predominantly resistive or where 4th quadrant (T2-, G+)
triggering is required
*Logic level and sensitive gate four-quadrant triacs can be driven
directly by logic ICs and microcontrollers.
*Patented planar technologies have been optimised for stable
voltage blocking at elevated temperatures, yielding long term
reliability in the application
*All devices are rated for the abnormal false trigger condition
(Max safe dIT/dt specified).
*The availability of three surface mount packages helps in stream-
lining PCB assembly and reducing costs
www.semiconductors.philips.com
236
Four-Quadrant Triacs
types in bold red represent new products
IT(RMS)
(A)
VOLTAGE
(V) IGT(max)
(mA)
SOT223 SOT428
DPAK
SOT404
D2PAK
SOT54
TO92
SOT82 SOT186A
(isolated
TO220AB)
SOT78
TO220AB
0.6 400 5/5/5/7 MAC97A6
0.6 600 5/5/5/7 MAC97A8
0.6 400 / 600 5/5/5/7 BT1306-xxxD
0.8 400 / 600 5/5/5/7 BT1308-xxxD
1600 / 800 3/3/3/5 Z0103MN/NN Z0103MA/NA
1600 / 800 5/5/5/7 Z0107MN/NN Z0107MA/NA
1600 / 800 10/10/10/10 Z0109MN/NN Z0109MA/NA
1600 / 800 3/3/3/7 BT131
1600 / 800 5/5/5/7 BT131-xxxD
1600 / 800 10 BT131-xxxE
1 600 BT131W
1600 / 800 BT134W
1 600 D/E BT134W
4 600 D/G BT134
4600 / 800 E BT134
4 600 D BT136X BT136
4600 / 800 E BT136S BT136B BT136X BT136
4 600 D BT136S
4600 / 800 F BT136S
8600 / 800 E BT137
8 600 D/G BT137
8600 / 800 E/F BT137B
8 800 G BT137B
8600 / 800 E BT137X
8 600 D/F/G BT137X
8600 / 800 D BT137S
8600 / 800 E/F/G BT137S
12 600 / 800 E/G BT138
12 600 F/G BT138B
12 600 / 800 E BT138B
12 600 / 800 E/F BT138X
16 600 / 800 E BT139B BT139
16 800 G BT139
16 600 / 800 F/G BT139B
16 600 E/F/G BT139X
16 800 BT139X
25 400 MAC223A6
25 600 MAC223A8X
25 600 / 800 BTA140
Application Note:Thyristors and Triacs - ten golden rules for success in your application 9397 750 00812
Product Application Info: Surface mounted triacs and thyristors 9397 750 02622
Fact sheet 067. Logic level and sensitive gate triacs 9397 750 00759
Thyristors, (SCRs) Triacs and Trigger Devices
Why choose
Philips Semiconductors?
MSD848
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Related literature
Title Order code
239
Thyristors part numbering
switch closes
for full speed
M
bra199
47 kΩ
470 kΩ33 Ω
47 nF
63 V
100 nF
250 V AC
Class X2
230 V 50 Hz
supply
BR100/03
1N4148
BTH151S-650R(1)
(1) High repetitive surge SCR in DPAK.
ITRM = 60 A, 100 kcycles
Power tool speed controller
Power Management
Thyristors
*Wide range of thyristors meets the needs of the general industrial
and home appliance O.E.M
*Comprehensive thyristor (SCR) selection suits D.C. ignition and
half wave A.C control applications in the home, on the move and
in industry
*Patented planar technologies have been optimised for stable
voltage blocking at elevated temperatures, yielding long term
reliability in the application
*The availability of three surface mount packages helps in stream-
lining PCB assembly and reducing costs
Note:The BTH151 has a high repetitive surge specification
which makes it suitable for applications where high inrush
currents or motor stall currents are likely to occur on a
repetitive basis
www.semiconductors.philips.com
238
Thyristors
types in bold red represent new products
types in bold red italic underlined represent products in development
IT(RMS)
(A)
VOLTAGE
(V) IGT(max)
(mA)
SOT223 SOT428
DPAK
SOT404
D2PAK
SOT54
TO92
SOT533
IPAK
SOT82 SOT186A
(isolated
TO220AB)
SOT78
TO220AB
0.8 400 12uA EC103D1
0.8 200 / 400 / 600 200uA BT169
0.8 200 / 400 / 600 200uA BT149
0.8 500 / 600 200µA (min
20µA)
BT168W BT168
0.8 200 200uA MCR08BT1
1 600 200uA BT148W
4400 / 500 / 600 200uA BT148
4 600 200uA BT150S
4 500 200uA BT150
8500 / 600 / 800 200uA BT258X BT258
8 800 200uA BT258S
8 600 15mA BT300S
12 500 / 650 / 800 15mA BT151S BT151X BT151
12 650 15mA BTH151S BTH151
12 500 / 650 / 800 15mA BT151U-xxxC BT151X-xxxC BT151-xxxC
20 400 / 600 / 800 32mA BT152B BT152X BT152
25 800 35mA BT145
Application Note:Thyristors and Triacs - ten golden rules for success in your application 9397 750 00812
Product Application Info: Surface mounted triacs and thyristors 9397 750 02622
Diacs
IFRM
(A)
V(BO)
(V)
I(BO)max
(uA)
SOD27
228 -36 50 BR100/03
