FUJI YA846C04B

DATE
CHECKED SEP.-05-‘03
SEP.-05-‘03
NAME
DWG.NO.
This material and the information herein is the property of
Fuji Electric Co.,Ltd. They shall be neither reproduced, copied,
lent, or disclosed in any way whatever for the use of any
t h ird pa rt y n o r u s ed f o r th e m an uf a c tu rin g p u rp o se s wit h o u t
the express written consent Fuji Electric Co.,Ltd.
S P E C I F I C AT I O N
Device Name
： SILICON DIODE
Model Name
： Schottky Barrier Diode
Type Name
： YA846C04B
Spec. No.
： MS5D1917
Fuji Electric Co.,Ltd.
Matsumoto Factory
APPROVED
DRAWN SEP.-05-‘03
Fuji Electric Co.,Ltd.
MS5D1917
1/12
H04-004-07
Date
SEP.-05
-2003
Fuji Electric Co.,Ltd.
DWG.NO.
This material and the information herein is the property of
Fuji Electric Co.,Ltd. They shall be neither reproduced, copied,
lent, or disclosed in any way whatever for the use of any
t h ird pa rt y n o r u s ed f o r th e m an uf a c tu rin g p u rp o se s wit h o u t
the express written consent Fuji Electric Co.,Ltd.
Revised
Records
Classification
Ind.
Content
Applied
date
Drawn
Enactment
―
――――――
Issued
date
―――
Checked
MS5D1917
Approved
2/12
H04-004-06
1. SCOPE
This specification provides the ratings and the test requirement for FUJI SILICON DIODE
YA846C04B
2. OUT VIEW, MARKING, MOLDING RESIN, CHARACTERISTICS
(1)Out view is shown
MS5D1917
9/12
(2)Marking is shown
MS5D1917
9/12
It is marked to type name or abbreviated type name, polarity and Lot No.
(3)Molding resin
Epoxy resin
UL : V-0
(4)Characteristics is shown MS5D1917 10/12～12/12
3.1 MAXIMUM RATINGS
(at Tc=25℃ unless otherwise specified.)
ITEM
SYMBOL
CONDITIONS
RATINGS
Repetitive peak surge reverse voltage
VRSM
tw=500ns,duty=1/40
45
Repetitive peak reverse voltage
VRRM
45
Square wave duty =1/2
Average output current
Io
30*
Tc= 98 ℃
Non-repetitive surge current **
IFSM
Sine wave, 10ms 1shot
200
Operating junction temperature
Tj
150
Storage temperature
Tstg
-40～+150
*
Out put current of center tap full wave connection.
UNITS
V
V
A
A
℃
℃
**
Rating per element
3.2 ELECTRICAL CHARACTERISTICS (at Tc=25℃ unless otherwise specified.)
ITEM
SYMBOL
CONDITIONS
MAXIMUM
***
Forward voltage
VF
IF= 12.5A
0.55
Reverse current ***
IR
VR=VRRM
1.0
Thermal resistance
Rth(j-c) Junction to case
2.0
***
Rating per element
3.3 MECHANICAL CHARACTERISTICS
Mounting torque
Approximate mass
Fuji Electric Co.,Ltd.
Recommended torque
DWG.NO.
This material and the information herein is the property of
Fuji Electric Co.,Ltd. They shall be neither reproduced, copied,
lent, or disclosed in any way whatever for the use of any
t h ird pa rt y n o r u s ed f o r th e m an uf a c tu rin g p u rp o se s wit h o u t
the express written consent Fuji Electric Co.,Ltd.
3. RATINGS
MS5D1917
0.3～0.5
2.0
UNITS
V
mA
℃/W
N・m
g
3/12
H04-004-03
4. TEST AND INSPECTION
4.1 STANDARD TEST CONDITION
Standard test condition is Ta=25℃、RH=65%.
If judgment is no doubt, the test condition is possible to test in normal condition
Ta=5～35℃、RH=48～85%
4.2 STRUCTURE INSPECTION
It inspect with eye and measure,Item2 shall be satisfied.
4.3 FORWARD AND REVERSE CHARACTERISTICS
It inspect on the standard condition,Item3.2 shall be satisfied.
4.4 TEST
5 Shock
6 Solder ability
7 Resistance to
Soldering Heat
Testing methods and Conditions
Pull force : 10N
Force maintaining duration :10±1s
Load force : 5N
Number of times : 2times(90deg./time)
Screwing torque value:(M3) : 40±10N・cm
Sampling
number
A-111A
method 1
5
A-111A
method 3
5
A-112
method 2
5
Frequency : 100Hz to 2kHz
Acceleration : 100m/s2
A-121
Sweeping time : 4min./1 cycle
4times for each X, Y&Z directions.
Peak amplitude : 15km/s2
A-122
Duration time : 0.5ms
test code D
3times for each X, Y&Z directions.
Solder temp. : 235±5℃
Immersion time : 5±0.5s
A-131A
Each terminal shall be immersed in the
test code A
solder bath within 1to3.0mm from the
body.
Solder temp. : 260±5°C
A-132
Immersion time : 10±1s
Number of times : 1times
Fuji Electric Co.,Ltd.
DWG.NO.
Test
Items
1 Terminal
Strength
(Tensile)
2 Terminal
Strength
(Bending)
3 Mounting
Strength
4 Vibration
Mechanical test
This material and the information herein is the property of
Fuji Electric Co.,Ltd. They shall be neither reproduced, copied,
lent, or disclosed in any way whatever for the use of any
t h ird pa rt y n o r u s ed f o r th e m an uf a c tu rin g p u rp o se s wit h o u t
the express written consent Fuji Electric Co.,Ltd.
Test
No.
Reference
Standard
EIAJ
ED4701
MS5D1917
Acceptance
number
5
(0 : 1)
5
5
5
4/12
H04-004-03
Test
Items
1 High Temp.
Storage
2 Low Temp.
Storage
3 Temperature
Humidity
Storage
4 Temperature
Humidity
Bias
Endurance test
This material and the information herein is the property of
Fuji Electric Co.,Ltd. They shall be neither reproduced, copied,
lent, or disclosed in any way whatever for the use of any
t h ird pa rt y n o r u s ed f o r th e m an uf a c tu rin g p u rp o se s wit h o u t
the express written consent Fuji Electric Co.,Ltd.
5 Unsaturated
Pressurized
Vapor
6 Temperature
Cycle
7 Thermal
Shock
8 Steady state
Operating
life
9 Intermittent
Operating
life
10 High Temp.
Reverse
Bias
Failure Criteria
Testing methods and Conditions
Temperature :Ｔstg max
Test duration : 1000h
Temperature :Ｔstg min
Test duration : 1000h
Temperature : 85±2°C
Relative humidity : 85±5%
Test duration : 1000h
Temperature : 85±2°C
Relative humidity : 85±5%
Bias Voltage : VRRM× 0.8
Test duration : 1000h
Temperature : 130±2°C
Relative humidity : 85±5%
Vapor pressure : 230kPa
Test duration : 48h
High temp. side : Tstg max
Room temp. : 5～35℃
Low temp. side : Tstg min
Duration time : HT 30min,RT 5min LT 30min
Number of cycles : 100 cycles
Fluid : pure water(running water)
High temp. side : 100+0/-5°C
Low temp. side : 0+5/-0°C
Duration time : HT 5min,LT 5min
Number of cycles : 100 cycles
Ta=25±5°C
Rated load
Test duration : 1000h
Tj=Tjmax ～50℃
3min ON, 3min OFF
Test duration : 10000cy
Temperature : Ta=100 °C
Bias Voltage : VR=VRRM duty=1/2
Test duration : 1000h
IR ≦USL x 2
VF≦USL x 1.1
Fuji Electric Co.,Ltd.
Samplin
g
number
B-111A
22
B-112A
22
B-121A
test code C
22
B-122A
test code C
22
B-123A
test code B
22
B-131A
22
B-141A
test code A
22
D-402
22
D-403
22
D-404
22
Acceptance
number
(0 : 1)
USL : Upper specification Limit
DWG.NO.
Test
No.
Reference
Standard
EIAJ
ED4701
MS5D1917
5/12
H04-004-03
5.Cautions
・Although Fuji Electric is continually improving product quality and reliability, a small percentage of
semiconductor products may become faulty. When using Fuji Electric semiconductor products in your
equipment, you are requested to take adequate safety measures to prevent the equipment from causing
physical injury, fire, or other problem in case any of the products fail. It is recommended to make your
design fail-safe, flame retardant, and free of malfunction.
・The products described in this specification are intended for use in the following electronic and
electrical equipment which has normal reliability requirements.
・Computers ・OA equipment
・Communications equipment (Terminal devices)
・Measurement equipment
・Machine tools
・AV equipment
・Electrical home appliances
・Personal equipment
・Industrial robots etc.
・The products described in this Specification are not designed or manufactured to be used in equipment
or systems used under life-threatening situations. If you are considering using these products in the
equipment listed below, first check the system construction and required reliability, and take adequate
safety measures such as a backup system to prevent the equipment from malfunctioning.
・Backbone network equipment
・Traffic-signal control equipment
・Gas alarms, leakage gas auto breakers
・Submarine repeater equipment
・Burglar alarms, fire alarms, emergency equipment
・Medical equipment
・Nuclear control equipment etc.
・Do not use the products in this Specification for equipment requiring strict reliability such as (but not
limited to):
・Aerospace equipment ・Aeronautical equipment
6.Warnings
・ The Diodes should be used in products within their absolute maximum rating (voltage, current,
temperature, etc. ). The diodes may be destroyed if used beyond the rating.
・The equipment containing Diodes should have adequate fuses or circuit breakers to prevent the
equipment from causing secondary destruction (ex. fire, explosion etc…).
・Use the Diodes within their reliability and lifetime under certain environments or conditions.
The Diodes may fail before the target lifetime of your products if used under certain reliability
conditions.
・You must design the Diodes to be operated within the specified maximum ratings (voltage, current,
temperature, etc. ) to prevent possible failure or destruction of devices.
・Consider the possible temperature rise not only for the junction and case, but also for the outer leads.
・Do not directly touch the leads or package of the Diodes while power is supplied or during operation, to
avoid electric shock and burns.
・The Diodes are made of incombustible material. However, if a diode fails, it may emit smoke of flame.
Also, operating the Diodes near any flammable place or material may cause the diodes to emit smoke or
flame in case the Diodes become even hotter during operation.
Design the arrangement to prevent the spread of fire.
・The Diodes should not used in an environment in the presence of acid, organic matter, or corrosive gas.
(hydrogen sulfide, sulfurous acid gas.)
・The Diodes should not used in an irradiated field since they are not radiation proof.
Fuji Electric Co.,Ltd.
DWG.NO.
This material and the information herein is the property of
Fuji Electric Co.,Ltd. They shall be neither reproduced, copied,
lent, or disclosed in any way whatever for the use of any
t h ird pa rt y n o r u s ed f o r th e m an uf a c tu rin g p u rp o se s wit h o u t
the express written consent Fuji Electric Co.,Ltd.
・Transportation equipment (automobiles, trains, ships, etc.)
MS5D1917
6/12
H04-004-03
Installation
・Soldering involves temperatures which exceed the device storage temperature rating. To avoid device
damage and to ensure reliability, observe the following guidelines from the quality assurance standard.
Table 1: Solder temperature and duration
Solder
Method
Duration
temperature
Flow
260±5℃
10±1second
Soldering iron 350±10℃
3.0±0.5second
・The immersion depth of the lead should basically be up to the lead stopper and the distance should
be a maximum of 1.5mm from the device.
・When flow-soldering, be careful to avoid immersing the package in the solder bath.
・Refer to the following torque reference When mounting the device on a heat sink. Excess torque
applied to the mounting screw causes damage to the device and weak torque will increase the
Table 2:Recommended tightening torque
Package style
Screw Recommended tightening torque
TO-220
M3
0.3～0.5N・m
・The heat sink should have a flatness within ±30μm and roughness within 10 μm. Also, keep the
tightening torque within the limits of this specification.
・Improper handling may cause isolation breakdown leading to a critical accident.
・We recommend the use of thermal compound to optimize the efficiency of heat radiation. It is
important to evenly apply the compound and to eliminate any air voids.
Storage
・The Diodes must be stored at a standard temperature of 5 to 35℃ and relative humidity of 45 to
75%.If the storage area is very dry, a humidifier may be required. In such a case, use only deionized
water or boiled water, since the chlorine in tap water may corrode the leads.
・The Diodes should not be subjected to rapid changes in temperature to avoid condensation on the
surface of the Diodes. Therefore, store the Diodes in a place where the temperature is steady.
・The Diodes should not be stored on top of each other, since this may cause excessive external force
on the case.
・The Diodes should not be stored with the lead terminals remaining unprocessed. Rust may cause
presoldered connections to go fail during later processing.
・The Diodes should be stored in antistatic containers or shipping bags.
Fuji Electric Co.,Ltd.
DWG.NO.
This material and the information herein is the property of
Fuji Electric Co.,Ltd. They shall be neither reproduced, copied,
lent, or disclosed in any way whatever for the use of any
t h ird pa rt y n o r u s ed f o r th e m an uf a c tu rin g p u rp o se s wit h o u t
the express written consent Fuji Electric Co.,Ltd.
thermal resistance, both of which conditions may destroy the device.
MS5D1917
7/12
H04-004-03
7.Appendix
・This products does not contain PBBs (Polybrominated Biphenyl) or PBDEs (Polybrominated Diphenyl
Ether ) , substances.
・This products does not contain Class-I ODS and Class-II ODS substances set force by ‘Clean Air Act
of US’ law.
・If you have any questions about any part of this Specification, please contact Fuji Electric or its sales
agent before using the product
・Neither Fuji nor its agents shall be held liable for any injury caused by using the products not in
accordance with the instructions.
・The application examples described in this specification are merely typical uses of Fuji Electric
products.
This specification does not confer any industrial property rights or other rights, nor constitute a
Fuji Electric Co.,Ltd.
DWG.NO.
This material and the information herein is the property of
Fuji Electric Co.,Ltd. They shall be neither reproduced, copied,
lent, or disclosed in any way whatever for the use of any
t h ird pa rt y n o r u s ed f o r th e m an uf a c tu rin g p u rp o se s wit h o u t
the express written consent Fuji Electric Co.,Ltd.
license for such rights.
MS5D1917
8/12
H04-004-03
DWG.NO.
Fuji Electric Co.,Ltd.
MS5D1917
9/12
H04-004-03
This material and the information herein is the property of
Fuji Electric Co.,Ltd. They shall be neither reproduced, copied,
lent, or disclosed in any way whatever for the use of any
t h ird pa rt y n o r u s ed f o r th e m an uf a c tu rin g p u rp o se s wit h o u t
the express written consent Fuji Electric Co.,Ltd.
Forward Characteristic
(typ.)
Reverse Characteristic
(typ.)
100
Tj=150℃
Tj=125℃
102
Tj=100℃
Tj=100℃
Tj=25℃
1
100
Tj= 25℃
10-1
ＩR
ＩＦ
Tj=125℃
10-2
0.1
0.0
10-3
0.1
0.2
0.3
ＶＦ
0.4
0.5
0.6
0.7
Forward Voltage
0.8
0.9
1.0
0
1.1
10
20
ＶR
（Ｖ）
30
Reverse Voltage
40
50
（Ｖ）
Reverse Power Dissipation (max.)
Forward Power Dissipation (max.)
40
22
38
20
DC
36
34
（Ｗ）
32
16
30
28
26
14
Reverse Power Dissipation
Square wave λ=60°
12
Square wave λ=120°
Sine wave λ=180°
10
Square wave λ=180°
DC
8
6
ＰＲ
4
24
22
20
α=180°
18
16
14
12
10
8
6
4
2
Per 1element
2
0
0
0
2
4
Ｉｏ
6
8
10
12
Average Forward Current
14
16
0
Fuji Electric Co.,Ltd.
5
10
ＶＲ
（Ａ）
DWG.NO.
Forward Power Dissipation
（Ｗ）
18
ＷＦ
This material and the information herein is the property of
Fuji Electric Co.,Ltd. They shall be neither reproduced, copied,
lent, or disclosed in any way whatever for the use of any
t h ird pa rt y n o r u s ed f o r th e m an uf a c tu rin g p u rp o se s wit h o u t
the express written consent Fuji Electric Co.,Ltd.
Reverse Current （ｍＡ）
Tj=150℃
Forward Current
（Ａ）
101
10
15
20
25
30
Reverse Voltage
MS5D1917
35
40
45
50
（Ｖ）
10/12
H04-004-03
Current Derating
Junction Capacitance Characteristic
(Io-Tc) (max.)
160
(typ.)
10000
150
140
（ｐＦ）
DC
120
Sine wave λ=180°
100
Square wave λ=180°
90
1000
Square wave λ=120°
Ｃj
Ｔｃ
Case Temperature
110
Junction Capacitance
（℃）
130
80
This material and the information herein is the property of
Fuji Electric Co.,Ltd. They shall be neither reproduced, copied,
lent, or disclosed in any way whatever for the use of any
t h ird pa rt y n o r u s ed f o r th e m an uf a c tu rin g p u rp o se s wit h o u t
the express written consent Fuji Electric Co.,Ltd.
70
60
Square wave λ=60°
50
100
0
5
10
Ｉｏ
15
20
25
30
35
Average Output Current
40
45
10
（Ａ）
ＶＲ
100
Reverse Voltage
（Ｖ）
λ:Conduction angle of forward current for each rectifier element
Io:Output current of center-tap full wave connection
Surge Capability (max.)
100
ＩFSM
Peak Half - Wave Current
（Ａ）
1000
10
10
100
Number of Cycles at 50Hz
Fuji Electric Co.,Ltd.
DWG.NO.
1
MS5D1917
11/12
H04-004-03
10
-3
10
-2
t
Fuji Electric Co.,Ltd.
Time
DWG.NO.
This material and the information herein is the property of
Fuji Electric Co.,Ltd. They shall be neither reproduced, copied,
lent, or disclosed in any way whatever for the use of any
t h ird pa rt y n o r u s ed f o r th e m an uf a c tu rin g p u rp o se s wit h o u t
the express written consent Fuji Electric Co.,Ltd.
Transient Thermal Impedance
(°C/W)
10
1
Transient Thermal Impedance (max.)
Rth j-c:2.0℃/W
10
0
10
-1
10
-2
10
-1
(sec)
10
0
10
1
MS5D1917
10
2
12/12
H04-004-03