Rohm BD9584F-E Earth leakage current detector ic Datasheet

Datasheet
EARTH LEAKAGE CURRENT DETECTOR
EARTH LEAKAGE
CURRENT DETECTOR IC
BD9584F
●General Description
BD9584F integrates leakage detector and amplifier.
Especially, it is suitable for high sensitivity and a highspeed operation use, and since the operating temperature
range is wide, it can be used for various uses.
●Key Specifications
■ Operating supply voltage range:
8V to 20V
■ Operating temperature range:
-20°C to +90°C
■ Supply current:
250μA(typ.)
■ Trip voltage:
6.4mV to 12.0mV
■ Output current ability(Ta=-20℃):
250μA(min.)
●Features
■ Small temperature fluctuation and high input
sensitivity
■ Wide operating temperature range
●Packages
SOP8
W(Typ.) x D(Typ.) x H(Max.)
5.00mm x 6.20mm x 1.71mm
●Applications
■ Earth leakage circuit breaker
■ Earth leakage circuit relay
Reference voltage
output block
Current source
●Typical Application Circuit Example
○Product structure:Silicon monolithic integrated circuit
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Datasheet
BD9584F
●Pin Configurations
●Block Diagrams
SOP8
(TOP VIEW)
8
7
6
8
7
VS
5
6
OS
5
NR
TRC2
VCC
Reset
Ctrl
Ctrl
1
2
3
4
GND
1
IN
2
Latch
Block
VR
3
TRC1
4
●Pin Descriptions
Pin No.
Symbol
Function
1
GND
2
IN
Input
3
VR
Reference voltage
4
TRC1
Capacitor connection for negative side detection
5
TRC2
Capacitor connection for positive side detection
6
NR
Capacitor connection for false signal detection
7
OS
Output
8
VS
Power supply
Ground
●Absolute Maximum Ratings
(Ta=25℃)
Parameter
Symbol
Rating
Unit
IS
12.5
mA
VS
36
V
VVR/IN
25
V
VTRC1/TRC2/NR/OS
8
V
Power dissipation
Pd
680 *2
mW
Storage temperature
Tstg
-55 to +150
℃
Supply current
*1
Supply voltage
Input terminal voltage
TRC1/TRC2/NR/OS terminal voltage
*1
*2
The power-supply voltage is limited by the internal clamping circuit.
To use at temperature above Ta=25℃ reduce 5.5mW/℃. Mounted on a glass epoxy PCB (70mm×70mm×1.6mm)
●Recommended Operating Ratings
Parameter
Symbol
Limits
Unit
Supply voltage
VS
8 to 20
V
Operating temperature
Topr
-20 to +90
℃
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Datasheet
BD9584F
●Electrical Characteristics
(Unless otherwise specified, VS=12V, GND=0V, Ta=25℃)
Limits
Symbol
Temperature
Range
Min.
Typ.
Max.
Supply Current(Standby)
IS
25℃
-
250
340
μA
Trip Voltage
VT
-20℃ to
+90℃
6.4
9.2
12.0
mV
OS HIGH Voltage
VOSH
25℃
3
-
-
V
OS LOW Voltage
VOSL
25℃
-
-
200
mV
IOS=-100μF, VS=8V to 20V
OS Source Current
IOS
25℃
250
-
-
μA
VOS=0.8V
IN Input Bias Current
IIN
25℃
-
100
-
nA
VVR=VIN
VVR
25℃
2.1
2.4
2.7
V
VS=8V to 20V
NR Source Current
INRSO
25℃
6.9
9.9
12.9
μA
VNR=2.7V, VVR=VIN
NR Threshold Voltage
VTHNR
25℃
2.1
2.4
2.7
V
TW3
25℃
53.7
80.0
129.1
ms
CNR=0.33μF
IRC1SO
25℃
35.9
51.3
66.7
μA
VTRC1=2.0V,
ΔVIN=VIN-VVR=-0.3V
TRC1 Threshold Voltage
VTH1
25℃
2.1
2.4
2.7
V
TW1 Pulse Width
TW1
25℃
1.48
2.20
3.53
ms
CTRC=0.047μF
IRC2SO
25℃
35.9
51.3
66.7
μA
VTRC2=2.0V,
ΔVIN=VIN-VVR=+0.3V
TRC2 Threshold Voltage
VTH2
25℃
2.1
2.4
2.7
V
TW2 Pulse Width
TW2
25℃
1.48
2.20
3.53
ms
VS Clamp Voltage
VSM
25℃
27.8
29.4
31.0
V
Parameter
VR Voltage
TW3 Pulse Width
TRC1 Source Current
TRC2 Source Current
Unit
Conditions
CTRC=0.047μF
IOS=250μF, VS=8V to 20V
CTRC=0.047μF
IS=10.5mA
100Ω
100Ω
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100Ω
100Ω
100Ω
●Test circuits
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Datasheet
100Ω
100Ω
100Ω
100Ω
100Ω
BD9584F
●Timing Chart
VT+
Input voltage
between IN and VR
ΔVIN(IN-VR)
VT-
VTH1=VVR
TRC1 terminal voltage
VTRC1
TW1
VTH2=VVR
TRC2 terminal voltage
VTRC2
TW2
VTHNR=VVR
NR terminal voltage
VNR
TW3
OS terminal voltage
VOS
<Negative side detection mode *3>
<Positive side detection mode *4>
VT+
ΔVIN(IN-VR)
VT-
VTH1
VTRC1
VTRC2
TW1
VNR
TW1
VTHNR
VOS
*3 TRC2=GND
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*4
TRC1=GND
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Datasheet
BD9584F
●Typical Performance Curves(reference data)
1.0
300
-20℃
0.9
250
S U P P LY C U R R E N T [uA ]
P O W E R D IS S IP A T IO N [W ]
0.8
0.7
0.6
0.5
0.4
0.3
0.2
25℃
90℃
200
150
100
50
0.1
0.0
0
25
50
75
90
0
100
125
0
150
5
10
Figure 1
Derating curve
25
30
Figure 2
Supply current - Supply voltage
3.0
60
25℃
90℃
T R C 1 /2 S O U R C E C U R R E N T [u A ]
2.5
V R T E R M IN A L V O L T A G E [V ]
20
SUPPLY VOLTAGE [V]
AMBIENT TEMPERATURE [℃]
25℃
2.0
15
-20℃
1.5
1.0
0.5
50
-20℃
90℃
40
30
20
10
0
0.0
0
5
10
15
20
SUPPLY VOLTAGE [V]
5
10
15
20
SUPPLY VOLTAGE [V]
Figure 3
VR terminal voltage
- Supply voltage
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Figure 4
TRC1/2 terminal source current
- Supply voltage
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Datasheet
BD9584F
400
30
-20℃
O S S O U R C E C U R R E N T [u A ]
R A T E O F V O LT A G E F LU C T U A T IO N [% ]
40
20
10
0
-10
-20
300
25℃
90℃
200
100
-30
0
-40
-60
-40
-20
0
20
40
60
80
100
0
120
5
AMBIENT TEMPERATURE [℃]
15
20
SUPPLY VOLTAGE [V]
Figure 5
Trip voltage fluctuation rate
- Ambient temperature
500
10
Figure 6
OS terminal source current - Supply voltage
400
25℃
400
O S S IN K C U R R E N T [uA ]
T R C 1/2 S IN K C U R R E N T [u A ]
90℃
-20℃
300
200
100
0
300
90℃
25℃
200
-20℃
100
0
0
5
10
15
20
0
5
10
15
SUPPLY VOLTAGE [V]
SUPPLY VOLTAGE [V]
Figure 7
TRC1/2 terminal source current - Supply voltage
Figure 8
OS terminal sink current - Supply voltage
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Datasheet
BD9584F
●Power Dissipation
Power dissipation(total loss) indicates the power that can be consumed by IC at Ta=25℃(normal temperature). IC is heated
when it consumed power, and the temperature of IC chip becomes higher than ambient temperature. The temperature that
can be accepted by IC chip depends on circuit configuration, manufacturing process, and consumable power is limited.
Power dissipation is determined by the temperature allowed in IC chip (maximum junction temperature) and thermal
resistance of package (heat dissipation capability). The maximum junction temperature is typically equal to the maximum
value in the storage temperature range. Heat generated by consumed power of IC radiates from the mold resin or lead
frame of the package. The parameter which indicates this heat dissipation capability(hardness of heat release)is called
thermal resistance, represented by the symbol θja℃/W. The temperature of IC inside the package can be estimated by this
thermal resistance. Fig.9(a) shows the model of thermal resistance of the package. Thermal resistance θja, ambient
temperature Ta, junction temperature Tj, and power dissipation Pd can be calculated by the equation below
θja = (Tj - Ta) / Pd
℃/W
・・・・・ (Ⅰ)
Derating curve in Fig.9(b) indicates power that can be consumed by IC with reference to ambient temperature. Power that
can be consumed by IC begins to attenuate at certain ambient temperature. This gradient is determined by thermal
resistance θja. Thermal resistance θja depends on chip size, power consumption, package, ambient temperature, package
condition, wind velocity, etc even when the same of package is used. Thermal reduction curve indicates a reference value
measured at a specified condition. Fig.10(a) shows a derating curve for an example of BD9584F.
LSIの 消 費
力 [W]
Power dissipation
of 電
LSI
Pd (max)
θja=(Tj-Ta)/P ℃/W
P2
θja2 < θja1
周囲温度 Ta [℃]
Ambient temperature
θ' ja2
P1
θ ja2
Tj ' (max) Tj (max)
θ' ja1
Chip surfaceチップ
temperature
表面温度 Tj [℃]
0
消費電力Pd[W]
P [W]
Power dissipation
25
50
θ ja1
75
100
Ambient temperature
周 囲 温 度 Ta [℃ ]
125
150
(b) Derating curve
(a) Thermal resistance
Figure 9. Thermal resistance and derating
1.0
0.9
P O W E R D IS S IP A T IO N [W ]
0.8
0.7
0.6
0.5
0.4
0.3
0.2
0.1
0.0
0
25
50
75
90
100
125
150
AMBIENT TEMPERATURE [℃]
(a) BD9584F
BD9584F
Derating curve slope
UNIT
5.5
mW/℃
When using the unit above Ta=25℃, subtract the value above per degree℃
Permissible dissipation is a value when FR4 glass epoxy board 70mm×70mm×1.6mm
(cooper foil area below 3%) is mounted.
Figure 10. Derating curve
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Datasheet
BD9584F
●I/O equivalence circuit
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Datasheet
BD9584F
●Operational Notes
1) Absolute maximum ratings
Absolute maximum ratings are the values which indicate the limits, within which the given voltage range can be safely
charged to the terminal. However, it does not guarantee the circuit operation.
2) Power dissipation Pd
Using the unit in excess of the rated power dissipation may cause deterioration in electrical characteristics due to a rise in
chip temperature, including reduced current capability. Therefore, please take into consideration the power dissipation
(Pd) under actual operating conditions and apply a sufficient margin in thermal design. Refer to the thermal derating
curves for more information.
3) Terminal short-circuits
When the output and power supply terminals are shorted, excessive output current may flow, resulting in undue heat
generation and, subsequently, destruction.
4) Ground terminal voltage
All time, Ground terminal voltage should keep lowest voltage.
In addition, please confirm whether there is not really a terminal becoming the voltage that is lower than GND including a
transitional phenomenon.
5) Operation in a strong electromagnetic field
Operation in a strong electromagnetic field may cause malfunctions.
6) Short-circuit between pins and erroneous mounting
Incorrect mounting may damage the IC. In addition, the presence of foreign particles between the outputs, the output and
the power supply, or the output and GND may result in IC destruction.
7) IC handing
Applying mechanical stress to the IC by deflecting or bending the board may cause fluctuations in the electrical
characteristics due to piezo resistance effects.
8) Board inspection
Connecting a capacitor to a pin with low impedance may stress the IC. Therefore, discharging the capacitor after every
process is recommended. In addition, when attaching and detaching the jig during the inspection phase, ensure that the
power is turned off before inspection and removal. Furthermore, please take measures against ESD in the assembly
process as well as during transportation and storage.
Status of this document
The Japanese version of this document is formal specification. A customer may use this translation version only for a reference
to help reading the formal version.
If there are any differences in translation version of this document formal version takes priority.
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Datasheet
BD9584F
●Ordering Information
B
D
9
5
8
4
F
Part Number
E2
Packaging and forming specification
E2: Embossed tape and reel
(SOP8)
Package
F: SOP8
●Physical Dimension Tape and Reel Information
SOP8
<Tape and Reel information>
5.0±0.2
(MAX 5.35 include BURR)
5
0.3MIN
6
1 2
3
0.9±0.15
7
4.4±0.2
6.2±0.3
8
+6°
4° −4°
Tape
Embossed carrier tape
Quantity
2500pcs
Direction
of feed
E2
The direction is the 1pin of product is at the upper left when you hold
( reel on the left hand and you pull out the tape on the right hand
)
4
0.595
1.5±0.1
+0.1
0.17 -0.05
S
S
0.11
0.1
1.27
1pin
0.42±0.1
Reel
(Unit : mm)
Direction of feed
∗ Order quantity needs to be multiple of the minimum quantity.
●Marking Diagrams
SOP8
(TOP VIEW)
9
5
8
4
LOT Number
1PIN MARK
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Datasheet
BD9584F
●Revision History
Date
Revision
2012.10.30
001
Changes
New Release
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Datasheet
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6)
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7)
De-rate Power Dissipation (Pd) depending on Ambient temperature (Ta). When used in sealed area, confirm the actual
ambient temperature.
8)
Confirm that operation temperature is within the specified range described in the product specification.
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Datasheet
●Precaution for Mounting / Circuit board design
1) When a highly active halogenous (chlorine, bromine, etc.) flux is used, the residue of flux may negatively affect product
performance and reliability.
2)
In principle, the reflow soldering method must be used; if flow soldering method is preferred, please consult with the
ROHM representative in advance.
For details, please refer to ROHM Mounting specification
●Precautions Regarding Application Examples and External Circuits
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characteristics of the Products and external components, including transient characteristics, as well as static
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2)
You agree that application notes, reference designs, and associated data and information contained in this document
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[a] the Products are exposed to sea winds or corrosive gases, including Cl2, H2S, NH3, SO2, and NO2
[b] the temperature or humidity exceeds those recommended by ROHM
[c] the Products are exposed to direct sunshine or condensation
[d] the Products are exposed to high Electrostatic
2)
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3)
Store / transport cartons in the correct direction, which is indicated on a carton with a symbol. Otherwise bent leads
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Use Products within the specified time after opening a humidity barrier bag. Baking is required before using Products of
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Datasheet
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In no event shall you use in any way whatsoever the Products and the related technical information contained in the
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