MC78PC18NTRG [ONSEMI]

Low Noise 150 mA Low Drop Out (LDO) Linear Voltage Regulator; 低噪声150毫安低压降（ LDO ）线性稳压器


型号：	MC78PC18NTRG
厂家：	ONSEMI
描述：	Low Noise 150 mA Low Drop Out (LDO) Linear Voltage Regulator 低噪声150毫安低压降（ LDO ）线性稳压器稳压器
文件：	总16页 (文件大小：144K)
中文：	中文翻译
下载：	下载PDF数据表文档文件

MC78PC00 Series

Low Noise 150 mA

Low Drop Out (LDO)

Linear Voltage Regulator

The MC78PC00 are a series of CMOS linear voltage regulators with

high output voltage accuracy, low supply current, low dropout voltage,

and high Ripple Rejection. Each of these voltage regulators consists of

an internal voltage reference, an error amplifier, resistors, a current

limiting circuit and a chip enable circuit.

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The dynamic Response to line and load is fast, which makes these

products ideally suited for use in hand−held communication

equipment. The MC78PC00 series are housed in the SOT−23 5 lead

package, for maximum board space saving.

SOT−23−5

N SUFFIX

CASE 1212

MC78PC00 Features:

• Ultra−Low Supply Current: typical 35 mA in ON mode with no load.

• Standby Mode: typical 0.1 mA.

PIN CONNECTIONS

• Low Dropout Voltage: typical 0.2 V @ I

= 100 mA.

OUT

• High Ripple Rejection: typical 70 dB @ f = 1 kHz.

• Low Temperature−Drift Coefficient of Output Voltage:

typical 100 ppm/°C.

GND

N/C

• Excellent Line Regulation: typical 0.05%/V.

• High Accuracy Output Voltage: 2.0%.

• Fast Dynamic Response to Line and Load.

(Top View)

DEVICE MARKING

(4 digits are available for device marking)

• Small Package: SOT−23 5 leads.

• Built−in Chip Enable circuit (CE input pin).

• Identical Pinout to the LP2980/1/2.

Marking

Voltage Version

1.8 V

2.5 V

2.8 V

3.0 V

• Pb−Free Packages are Available

MC78PC00 Applications:

• Power source for cellular phones (GSM, CDMA, TDMA), Cordless

Phones (PHS, DECT) and 2−way radios.

• Power source for domestic appliances such as cameras, VCRs and

camcorders.

3.3 V

5.0 V

Lot Number

• Power source for battery−powered equipment.

Block Diagram

PIN DESCRIPTION

MC78PCxx

Pin #

Symbol

Description

OUT

Input Pin

GND

Ground Pin

Chip Enable Pin

No Connection

Output Pin

N/C

OUT

CURRENT LIMIT

ref

ORDERING INFORMATION

See detailed ordering and shipping information in the package

dimensions section on page 14 of this data sheet.

GND

Semiconductor Components Industries, LLC, 2005

Publication Order Number:

June, 2005 − Rev. 6

MC78PC00/D

MC78PC00 Series

MAXIMUM RATINGS

Rating

Symbol

Value

Unit

Input Voltage

9.0

Input Voltage

−0.3 ~V +0.3

Output Voltage

−0.3 ~V +0.3

OUT

Power Dissipation

250

−40 to +85

+125

°C

Operating Temperature Range

Operating Junction Temperature

Maximum Junction Temperature

Storage Temperature Range

+150

Jmax

stg

−55 to +125

Maximum ratings are those values beyond which device damage can occur. Maximum ratings applied to the device are individual stress limit

values (not normal operating conditions) and are not valid simultaneously. If these limits are exceeded, device functional operation is not implied,

damage may occur and reliability may be affected.

ELECTRICAL CHARACTERISTICS (T = 25°C)

Characteristic

+ 1.0 V, I

Symbol

Min

Typ

Max

Unit

Output Voltage (V = V

= 30 mA)

OUT

MC78PC18

MC78PC25

MC78PC28

MC78PC30

MC78PC33

MC78PC50

1.764

2.450

2.744

2.94

3.234

4.9

1.80

2.50

2.80

3.00

3.3

1.836

2.550

2.856

3.06

3.366

5.1

5.0

Nominal Output Current

150

−

OUT

(V = V

+ 1.0 V, V

= V

− 0.1 V)

OUT(nom)

OUT

Load Regulation (V = V

+ 1.0 V, 1.0 mA ≤ I

≤ 80 mA)

/DI

OUT

−

OUT

Supply Current in ON mode (V = V

+ 1.0 V, I

= 0 mA)

OUT

Supply Current in OFF mode, i.e. V = GND

0.1

1.0

standby

(V = V

+ 1.0 V, I

= 0 mA)

OUT

Ripple Rejection (f = 1.0 kHz, Ripple 0.5 V , V = V + 1.0 V)

OUT

−

8.0

−

p−p

Input Voltage

Output Voltage Temperature Coefficient

/DT

100

ppm/°C

OUT

= 30 mA, −40°C ≤ T ≤ +85°C)

OUT

Short Circuit Current Limit (V

CE Pull−down Resistance

= 0 V)

−

2.5

1.5

5.0

−

OUT

lim

CE Input Voltage “H” (ON Mode)

CE Input Voltage “L” (OFF Mode)

−

0.25

−

Output Noise Voltage (f = 10 Hz to 100 kHz)

−

rms

ELECTRICAL CHARACTERISTICS by OUTPUT VOLTAGE V_OUT(T = 25°C)

Characteristic

Symbol

Min

Typ

Max

Unit

Dropout Voltage (I

= 100 mA)

OUT

DIF

1.8 ≤ V

2.0 ≤ V

2.5 ≤ V

2.8 ≤ V

3.4 ≤ V

≤ 1.9

≤ 2.4

≤ 2.7

≤ 3.3

≤ 6.0

−

0.60

0.35

0.24

0.20

0.17

1.40

0.70

0.35

0.30

0.26

OUT

Line Regulation

(V + 0.5 V ≤ V ≤ 8.0 V, I = 30 mA)

OUT

/DV

OUT

%/V

−

0.05

0.20

OUT

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MC78PC00 Series

OPERATION

MC78PC00

OUT

ERROR AMP.

ref

CURRENT LIMIT

GND

In the MC78PC00, the output voltage V

is detected by R1, R2. The detected output voltage is then compared to the

OUT

internal voltage reference by the error amplifier. Both a current limiting circuit for short circuit protection, and a chip enable

circuit are included.

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MC78PC00 Series

TEST CIRCUITS

OUT

MC78PCxx

Series

MC78PCxx

Series

OUT

0.1 mF

2.2 mF

0.1 mF

2.2 mF

GND

Figure 1. Standard Test Circuits

Figure 2. Supply Current Test Circuit

OUT

MC78PCxx

Series

MC78PCxx

Series

OUT

P.G.

10 mF

1 mF

10 mF

GND

Figure 3. Ripple Rejection, Line

Transient Response Test Circuit

Figure 4. Load Transient Response

Test Circuit

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MC78PC00 Series

2.0

1.8

1.6

1.4

1.2

1.0

0.8

0.6

0.4

3.5

3.0

2.5

2.0

1.5

1.0

0.5

5.0 V

3.8 V

4.0 V

3.5 V

= 3.3 V

2.8 V

2.3 V

= 2.1 V

= 25°C

0.2

= 25°C

100

200

300

400

500

100

200

300

400

500

I , OUTPUT CURRENT (mA)

OUT

I , OUTPUT CURRENT (mA)

OUT

Figure 5. MC78PC18 Output Voltage versus

Output Current

Figure 6. MC78PC30 Output Voltage versus

Output Current

4.5

4.0

3.5

3.0

2.5

2.0

1.5

1.0

6.0

5.0

4.0

3.0

2.0

6.0 V

7.0 V

5.0 V

4.5 V

6.0 V

5.5 V

= 4.3 V

= 5.3 V

1.0

= 25°C

0.5

= 25°C

100

200

300

400

500

100

200

300

400

500

I , OUTPUT CURRENT (mA)

OUT

I , OUTPUT CURRENT (mA)

OUT

Figure 7. MC78PC40 (4.0 V) Output Voltage

versus Output Current

Figure 8. MC78PC50 Output Voltage versus

Output Current

2.0

1.9

1.8

1.7

1.6

1.5

1.4

3.1

3.0

2.9

2.8

2.7

= 1 mA

OUT

1.0 mA

30 mA

50 mA

2.0

2.6

2.5

1.3

1.2

= 25°C

= 50 mA

3.0

= 25°C

OUT

1.0

3.0

4.0

5.0

6.0

7.0

8.0

2.0

4.0

5.0

6.0

7.0

8.0

, INPUT VOLTAGE (VOLTS)

Figure 9. MC78PC18 Output Voltage versus

Input Voltage

Figure 10. MC78PC30 Output Voltage versus

Input Voltage

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MC78PC00 Series

4.5

4.0

3.5

5.5

5.0

4.5

4.0

= 1.0 mA

OUT

3.5

1.0 mA

OUT

3.0

2.5

3.0

2.5

= 25°C

30 mA

50 mA

= 25°C

30 mA

2.0

3.0

4.0

5.0

6.0

7.0

8.0

3.0

4.0

V , INPUT VOLTAGE (VOLTS)

5.0

6.0

7.0

8.0

, INPUT VOLTAGE (VOLTS)

Figure 11. MC78PC40 (4.0 V) Output Voltage

versus Input Voltage

Figure 12. MC78PC50 Output Voltage versus

Input Voltage

1.2

1.0

0.8

0.6

0.4

0.40

0.35

0.30

0.25

0.20

0.15

0.10

T = 85°C

= 85°C

25°C

−40°C

25°C

−40°C

0.2

0.05

100

150

100

150

I , OUTPUT CURRENT (mA)

OUT

I , OUTPUT CURRENT (mA)

OUT

Figure 13. MC78PC18 Dropout Voltage versus

Output Current

Figure 14. MC78PC30 Dropout Voltage versus

Output Current

0.40

0.35

0.30

0.25

0.20

0.15

0.10

0.40

0.35

0.30

0.25

0.20

0.15

0.10

= 85°C

25°C

= 85°C

25°C

−40°C

0.05

100

150

100

150

I , OUTPUT CURRENT (mA)

OUT

I , OUTPUT CURRENT (mA)

OUT

Figure 15. MC78PC40 (4.0 V) Dropout Voltage

versus Output Current

Figure 16. MC78PC50 Dropout Voltage versus

Output Current

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MC78PC00 Series

1.90

1.88

1.86

1.84

1.82

1.80

1.78

1.76

1.74

3.08

3.06

3.05

3.04

3.02

3.00

2.98

2.96

2.94

= 2.8 V

= 30 mA

= 4.0 V

= 10 mA

OUT

1.72

1.70

2.92

2.90

−50

−25

100

−50

−25

100

T , TEMPERATURE (°C)

Figure 17. MPC78PC18 Output Voltage

versus Temperature

Figure 18. MC78PC30 Output

Voltage versus Temperature

4.10

4.08

4.06

4.04

4.02

4.00

3.98

3.96

3.94

5.10

5.08

5.06

5.04

5.02

5.00

4.98

4.96

4.94

= 5.0 V

= 10 mA

= 6.0 V

= 10 mA

OUT

3.92

3.90

4.92

4.90

−50

−25

100

−50

−25

100

T , TEMPERATURE (°C)

Figure 19. MC78PC40 (4.0 V) Output

Voltage versus Temperature

Figure 20. MC78PC50 Output

Voltage versus Temperature

= 25°C

1.0

2.0

3.0

4.0

5.0

6.0

7.0

8.0

2.0

3.0

4.0

V , INPUT VOLTAGE (VOLTS)

5.0

6.0

7.0

8.0

, INPUT VOLTAGE (VOLTS)

Figure 21. MC78PC18 Supply Current

versus Input Voltage

Figure 22. MC78PC30 Supply Current

versus Input Voltage

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MC78PC00 Series

= 25°C

2.0

3.0

4.0

5.0

6.0

7.0

8.0

2.0

3.0

4.0

V , INPUT VOLTAGE (VOLTS)

5.0

6.0

7.0

8.0

, INPUT VOLTAGE (VOLTS)

Figure 23. MC78PC40 (4.0 V) Supply Current

versus Input Voltage

Figure 24. MC78PC50 Supply Current

versus Input Voltage

−50

−25

100

−50

−25

100

T , TEMPERATURE (°C)

Figure 26. MC78PC40 (4.0 V) Supply

Current versus Temperature

Figure 25. MC78PC30 Supply Current

versus Temperature

0.7

= 150 mA

OUT

0.6

0.5

0.4

0.3

0.2

= 25°C

100 mA

50 mA

30 mA

0.1

10 mA

−50

−25

100

2.0

3.0

4.0

5.0

6.0

T , TEMPERATURE (°C)

, OUTPUT VOLTAGE (VOLTS)

OUT

Figure 27. MC78PC50 Supply Current

versus Temperature

Figure 28. Dropout Voltage versus

Output Voltage

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MC78PC00 Series

= 1.0 mA

= 30 mA

= 50 mA

= 1.0 mA

= 30 mA

= 50 mA

OUT

= 2.8 V + 0.5 V

= 1.0 mF

V = 2.8 V + 0.5 V

IN DC p−p

p−p

= 1.0 mF

OUT

0.1

1.0

100

0.1

1.0

100

f, FREQUENCY (kHz)

Figure 29. MC78PC18 Ripple Rejection

versus Frequency

Figure 30. MC78PC18 Ripple Rejection

versus Frequency

= 1.0 mA

= 30 mA

= 50 mA

= 1.0 mA

= 30 mA

= 50 mA

OUT

= 4.0 V + 0.5 V

= 4.7 mF

V = 4.0 V + 0.5 V

IN DC p−p

p−p

= 10 mF

OUT

0.1

1.0

100

0.1

1.0

100

f, FREQUENCY (kHz)

Figure 31. MC78PC30 Ripple Rejection

versus Frequency

Figure 32. MC78PC30 Ripple Rejection

versus Frequency

= 1.0 mA

= 30 mA

= 50 mA

= 1.0 mA

= 30 mA

= 50 mA

OUT

= 5.0 V + 0.5 V

= 4.7 mF

V = 5.0 V + 0.5 V

IN DC p−p

p−p

= 10 mF

OUT

0.1

1.0

100

0.1

1.0

100

f, FREQUENCY (kHz)

Figure 34. MC78PC40 (4.0 V) Ripple

Rejection versus Frequency

Figure 33. MC78PC40 (4.0 V) Ripple

Rejection versus Frequency

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MC78PC00 Series

= 1.0 mA

= 30 mA

= 50 mA

OUT

= 6.0 V + 0.5 V

DC p−p

= 4.7 mF

OUT

0.1

1.0

100

f, FREQUENCY (kHz)

Figure 35. MC78PC50 Ripple Rejection

versus Frequency

= 1.0 mA

= 10 mF

OUT

= 1.0 mA

= 30 mA

= 50 mA

f = 400 Hz

f = 1.0 kHz

f = 10 kHz

OUT

= 6.0 V + 0.5 V

DC p−p

= 10 mF

OUT

0.1

1.0

100

3.1

3.2

3.3

V , INPUT VOLTAGE (VOLTS)

3.4

3.5

f, FREQUENCY (kHz)

Figure 37. MC78PC30 Ripple Rejection

versus Input Voltage (DC Bias)

Figure 36. MC78PC50 Ripple Rejection

versus Frequency

= 50 mA

= 10 mF

OUT

= 10 mA

= 10 mF

OUT

f = 400 Hz

f = 1.0 kHz

f = 10 kHz

f = 400 Hz

f = 1.0 kHz

f = 10 kHz

3.1

3.2

3.3

3.4

3.5

3.1

3.2

3.3

3.4

3.5

, INPUT VOLTAGE (VOLTS)

Figure 38. MC78PC30 Ripple Rejection

versus Input Voltage (DC Bias)

Figure 39. MC78PC30 Ripple Rejection

versus Input Voltage (DC Bias)

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MC78PC00 Series

3.4

6.0

3.4

6.0

3.3

3.2

3.1

3.0

5.0

4.0

3.3

3.2

3.1

3.0

5.0

4.0

INPUT VOLTAGE

3.0

2.0

3.0

2.0

OUTPUT VOLTAGE

t = t = 5.0 ms

2.9

2.8

1.0

2.9

2.8

1.0

= 4.7 mF (TANTALUM)

= 30 mA

= 6.8 mF (TANTALUM)

= 30 mA

OUT

t, TIME (ms)

100

120

t, TIME (ms)

100

120

Figure 40. MC78PC30 Line Transient Response

Figure 41. MC78PC30 Line Transient Response

3.4

6.0

3.4

150

3.3

3.2

3.1

3.0

5.0

4.0

3.3

3.2

3.1

3.0

100

OUTPUT CURRENT

OUTPUT VOLTAGE

INPUT VOLTAGE

3.0

2.0

OUTPUT VOLTAGE

−50

= 1.0 mf (TANTALUM)

= 4.7 mF (TANTALUM)

= 4.0 V

t = t = 5.0 ms

2.9

2.8

1.0

2.9

2.8

−100

−150

= 10 mF (TANTALUM)

= 30 mA

OUT

t, TIME (ms)

100

120

2.0 4.0 6.0 8.0 10

16 18 20

t, TIME (ms)

Figure 43. MC78PC30 Load Transient Response

Figure 42. MC78PC30 Line Transient Response

3.4

150

3.4

150

3.3

3.2

3.1

3.0

100

3.3

3.2

3.1

3.0

100

OUTPUT CURRENT

OUTPUT VOLTAGE

−50

= 1.0 mf (TANTALUM)

= 6.8 mF (TANTALUM)

= 4.0 V

= 1.0 mf (TANTALUM)

= 10 mF (TANTALUM)

2.9

2.8

−100

−150

2.9

2.8

−100

−150

OUT

V = 4.0 V

2.0 4.0 6.0 8.0 10

t, TIME (ms)

18 20

2.0 4.0 6.0 8.0 10

16 18 20

t, TIME (ms)

Figure 44. MC78PC30 Load Transient Response

Figure 45. MC78PC30 Load Transient Response

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MC78PC00 Series

APPLICATION HINTS

When using these circuits, please be sure to observe the

following points:

• Phase compensation is made for securing stable operation

even if the load current varies. For this reason, be sure to

and ESR of Output Capacitor are shown. The conditions

where the white noise level is under 40 mV (Avg.) are

marked by the shaded area in the graph. (note: When

additional ceramic capacitors are connected to the Output

Pin with Output capacitor for phase compensation, there

is a possibility that the operation will be unstable. Because

of this, test these circuits with as same external

components as ones to be used on the PCB).

use a capacitor C

with good frequency characteristics

OUT

and ESR (Equivalent Series Resistance) as described in

the graphs on page 11.

On page 11, the relations between I

(Output Current)

OUT

SPECTRUM

ANALYSER

S.A.

CERAMIC

CAPACITOR

CERAMIC

CAPACITOR

1.0 mF

4.0 V

GND

ESR

OUT

MEASURING CONDITIONS: (1) FREQUENCY RANGE: 10 Hz TO 1.0 MHz

MEASURING CONDITIONS: (2) TEMPERATURE: 25°C

Figure 46. Measuring Circuit for White Noise: MC78PC30

• Please be sure the V and GND lines are sufficiently

• Set external components, especially the Output Capacitor,

as close as possible to the circuit, and make the wiring as

short as possible.

wide. When the impedance of these lines is high, there is

a chance to pick up noise or to malfunction.

• Connect the capacitor with a capacitance of 1.0 mF or

more between V and GND as close as possible to V or

GND.

MC78PCxx

OUT

CAP.

GND

Figure 47. Typical Application

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MC78PC00 Series

100

1.0

0.1

1.0

0.1

100

150

I , OUTPUT CURRENT (mA)

OUT

100

150

, OUTPUT CURRENT (mA)

OUT

Figure 49. Ceramic Capacitor 6.8 mF

Figure 48. Ceramic Capacitor 4.7 mF

100

1.0

0.1

100

150

I , OUTPUT CURRENT (mA)

OUT

Figure 50. Ceramic Capacitor 10 mF

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MC78PC00 Series

TAPE AND REEL INFORMATION

Component Taping Orientation for 5L SOT−23 Devices

USER DIRECTION OF FEED

DEVICE

MARKING

PIN 1

Standard Reel Component Orientation

for TR Suffix Device

(Mark Right Side Up)

Tape & Reel Specifications Table

Package

Tape Width (W)

Pitch (P)

Part Per Full Reel

Reel Diameter

5L SOT−23

8 mm

4 mm

3000

7 inches

ORDERING INFORMATION

Device

†

Package

Shipping

MC78PC18NTR

SOT−23 5 Leads

MC78PC18NTRG

SOT−23 5 Leads

(Pb−Free)

MC78PC25NTR

SOT−23 5 Leads

MC78PC25NTRG

SOT−23 5 Leads

(Pb−Free)

MC78PC28NTR

SOT−23 5 Leads

MC78PC28NTRG

SOT−23 5 Leads

(Pb−Free)

3000 Units/Tape & Reel

MC78PC30NTR

SOT−23 5 Leads

MC78PC30NTRG

SOT−23 5 Leads

(Pb−Free)

MC78PC33NTR

SOT−23 5 Leads

MC78PC33NTRG

SOT−23 5 Leads

(Pb−Free)

MC78PC50NTR

SOT−23 5 Leads

MC78PC50NTRG

SOT−23 5 Leads

(Pb−Free)

†For information on tape and reel specifications, including part orientation and tape sizes, please refer to our Tape and Reel Packaging

Specifications Brochure, BRD8011/D.

Other voltages are available. Consult your ON Semiconductor representative.

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MC78PC00 Series

PACKAGE DIMENSIONS

SOT−23−5

N SUFFIX

PLASTIC PACKAGE

CASE 1212−01

ISSUE O

NOTES:

1. DIMENSIONS ARE IN MILLIMETERS.

2. INTERPRET DIMENSIONS AND TOLERANCES

PER ASME Y14.5M, 1994.

0.05

3. DATUM C IS A SEATING PLANE.

MILLIMETERS

DIM MIN

MAX

0.10

1.30

0.50

0.25

3.00

3.10

1.80

0.00

1.00

0.30

0.10

2.80

2.50

1.50

0.95 BSC

1.90 BSC

0.20

0.45

0.10

C B

−−−

0.75

SOLDERING FOOTPRINT*

0.7 MAX.

1.0

2.4

0.95

(Unit: mm)

1.9

Figure 51. SOT−23−5

*For additional information on our Pb−Free strategy and soldering

details, please download the ON Semiconductor Soldering and

Mounting Techniques Reference Manual, SOLDERRM/D.

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MC78PC00 Series

ON Semiconductor and

are registered trademarks of Semiconductor Components Industries, LLC (SCILLC). SCILLC reserves the right to make changes without further notice

to any products herein. SCILLC makes no warranty, representation or guarantee regarding the suitability of its products for any particular purpose, nor does SCILLC assume any liability

arising out of the application or use of any product or circuit, and specifically disclaims any and all liability, including without limitation special, consequential or incidental damages.

“Typical” parameters which may be provided in SCILLC data sheets and/or specifications can and do vary in different applications and actual performance may vary over time. All

operating parameters, including “Typicals” must be validated for each customer application by customer’s technical experts. SCILLC does not convey any license under its patent rights

nor the rights of others. SCILLC products are not designed, intended, or authorized for use as components in systems intended for surgical implant into the body, or other applications

intended to support or sustain life, or for any other application in which the failure of the SCILLC product could create a situation where personal injury or death may occur. Should

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