LSK170D TO-92 3L ROHS 数据手册
LSK170 A/B/C/D
Quality Through Innovation Since 1987
High Input Impedance, Ultra-Low Noise, Single N-Channel JFET
Ultra-Low Noise at Both High & Low Frequencies With a Narrow Range of IDSS
Absolute Maximum Ratings
@ 25 °C (unless otherwise stated)
TO-92 3L
SOT-23 3L
SOT-89 3L
TOP VIEW
TOP VIEW
TOP VIEW
G
3
Maximum Temperatures
Storage Temperature
-55 to +150°C
Junction Operating Temperature
-55 to +135°C
Maximum Power Dissipation
Continuous Power Dissipation @ +25°C
1
2
3
D
G
S
400mW
G
1
2
1
D
S
S
2
G
3
D
Maximum Currents
Gate Forward Current
IG(F) = 10mA
Maximum Voltages
Gate to Source
VGSS = 40V
Gate to Drain
VGDS = 40V
Features
Benefits
Applications
Applications Cont’d
ULTRA LOW NOISE (f =1khz):
en = 0.9nV/√Hz
High Breakdown Voltage:
BVGSS = 40V min
High Gain: Gfs = 22mS (typ)
High Input Impedance:
20GΩ typ
Low Capacitance: 22pF max
Improved Second Source
Replacement for 2SK170
For Equivalent Monolithic-Dual,
See the LSK389 Series
Direct Pin-For-Pin Replacement
of Toshiba's 2SK170
Optimized to Provide Low Noise
at Both High and Low
Frequencies With a Narrow
Range of IDSS and Low
Capacitance
Low Noise to Capacitance Ratio
and Narrow Range of Low Value
IDSS Provide Solutions for Low
Noise Applications Which Cannot
Tolerate High Values of
Capacitance or Wide Ranges of
IDSS
• Audio Amplifiers and
Preamps
• Discrete Low-Noise
Operational
Amplifiers
• Guitar Pickups
• Effects Pedals
• Microphones
• Audio Mixer
Consoles
• Acoustic Sensors
• Sonobuoys
• Hydrophones
Chemical and Radiation
Detectors
Instrumentation Amplifiers
Accelerometers
CT Scanners Input Stages
Oscilloscope Input Stages
Electrometers and
Vibrations Detectors
Description
The LSK170 is specifically designed for low noise, high input
impedance applications within the audio, instrumentation, medical
and sensors markets. The narrow ranges of IDSS grades with the
LSK170 promote ease of design, particularly in low voltage
applications. The LSK170 is ideal for portable battery operated
applications, and features high BVDSS for maximum linear
headroom in high transient program content amplifiers. The series
has a uniquely linear VGS transfer function for a stability that is
highly desirable, particularly for audio front-end preamplifiers.
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The device is available in a surface mount SOT-23 package, throughhole TO-92 package and SOT-89 package. The surface mount
version of the LSK170 Series creates new opportunities for engineers
seeking to design lower noise circuits in compact embeddable
applications where shielding and space are critical. The LSK170
series is a pin for pin replacement of the Toshiba 2SK170 and
improved functional replacement for the Interfet IF1320, IF1330,
IF1331, and IF4500. Contact the factory for tighter noise and other
specification selections.
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Page 1 of 7
LSK170 A/B/C/D
High Input Impedance, Ultra-Low Noise, Single N-Channel JFET
Electrical Characteristics @ 25°C (unless otherwise stated)
SYMBOL
CHARACTERISTIC
MIN
BVGSS
Gate to Source Breakdown Voltage
-40.0
VGS(OFF)
Gate to Source Pinch-off Voltage
-0.2
VGS
Gate to Source Operating Voltage
IDSS2
Drain to Source Saturation
Current
TYP
MAX
-2.0
0.5
LSK170A
2.6
6.5
LSK170B
6.0
12.0
LSK170C
10.0
20.0
LSK170D
18.0
30.0
UNITS
CONDITIONS
V
VDS = 0V, ID = -100µA
V
VDS = 10V, ID = 1nA
V
VDS = 10V, ID = 1mA
mA
VDS = 10V, VGS = 0
IG
Gate Operating Current
-0.5
nA
VDG = 10V, ID = 1mA
IGSS
Gate to Source Leakage Current
-1.0
nA
VGs = -10V, VDs = 0V
Gfs
Full Conduction Transconductance
14.0
22.0
mS
VDS = 10V, VGS = 0, f = 1kHz
Gfs
Typical Conduction Transconductance
6.0
10.0
mS
VDS = 15V, ID = 1mA
en
Noise Voltage
0.9
1.9
nV/√Hz
VDS = 10V, ID = 2mA, f = 1kHz,
NBW = 1Hz
en
Noise Voltage
1.4
4.0
nV/√Hz
VDS = 10V, ID = 2mA, f = 10Hz,
NBW = 1Hz
CISS
Common Source Input Capacitance
20.0
pF
VDS = 15V, ID = 100µA, f = 1MHz,
CRSS
Common Source Reverse Transfer Cap.
5.0
pF
VDS = 15V, ID = 100µA, f = 1MHz,
Doc 201110 11/19/2019 Rev# A22 ECN# LSK170
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Page 2 of 7
LSK170 A/B/C/D
High Input Impedance, Ultra-Low Noise, Single N-Channel JFET
Typical Characteristics
Operating Current
IG
Operating Current
LSK389A
LSK170A – IG vs. VDS
(A)
IG
0.12mA
-1E-08
(A)
LSK389B
LSK170B – IG vs. VDS
1.5mA
-1E-08
0.4mA
3.6mA
0.84mA
9.0mA
1.44mA
decade/div
decade/div
ID = 10.3mA
2.2mA
0.20mA
ID = 3.04mA
0.04mA
-1E-13
4.000
VDS
24.00
2.000/div
(V)
VDS
-1E-13
4.000
VDS
2.000/div (V)
2.000/div (V)
Output Conductance
Output Conductance
GOS
(S)
GOS
LSK389A – GOS vs. VDS
LSK170A
(S)
150.0
E-06
100.0 ID = 3.04mA
E-06
2.2mA
10.00/div
LSK389B
LSK170B – GOS vs. VDS
ID = 10.3mA
7.7mA
1.44mA
15.00/div
5.5mA
0.84mA
0.4mA
.0000
4.000
24.00
2.000/div (V)
VDS
VDS
0.12mA
VDS2.000/div (V)
3.6mA
0.04mA
2mA
24.00
.0000
5.000
2.000/div (V)
Doc 201110 11/19/2019 Rev# A22 ECN# LSK170
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VDS
V2.000/div
DS
(V)
0.9mA
25.00
2.000/div (V)
Page 3 of 7
LSK170 A/B/C/D
High Input Impedance, Ultra-Low Noise, Single N-Channel JFET
Typical Characteristics
Output Characteristics
ID
(mA)
Output Characteristics
LSK389A
LSK170A – ID vs. VDS
4.000
ID
(mA)
LSK389B – ID vs. VDS
LSK170B
0V
10.00
0V
-0.10V
-0.05V 1.000/div
0.40/div
-0.20V
-0.10V
-0.30V
-0.15V
-0.40V
-0.20V
-0.50V
-0.25V
.0000
.0000
VDS
V2.500/div
DS
(V)
25.00
.0000
.0000
2.500/div (V)
Operating Characteristics
ID
(mA)
V2.500/div
DS
(V)
25.00
2.500/div (V)
Operating Characteristics
ID
LSK389A
LSK170A – ID vs. VDS
2.5
VDS
(mA)
0V
LSK389B
LSK170B – ID vs. VDS
10.00
0V
0.25/div
-0.05V
1.000/div
-0.10V
-0.20V
-0.10V
-0.30V
-0.15V
.0000
.0000
-0.20V
-0.25V
VDS
V0.20/div
DS
(V)
2.000
.0000
.0000
0.20/div (V)
Doc 201110 11/19/2019 Rev# A22 ECN# LSK170
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-0.40V
-0.50V
VDS
V0.20/div
DS
(V)
2.000
0.20/div (V)
Page 4 of 7
LSK170 A/B/C/D
High Input Impedance, Ultra-Low Noise, Single N-Channel JFET
Typical Characteristics
Common Source Forward
Transconductance vs. Drain Current
GFS
(S)
LSK389A
LSK170A &
&B
B – GFS vs. ID
25.00
E-03
Common Source Transconductance vs.
Drain Current
GFS
(S)
LSK389A
LSK170A &
&B
B – GFS vs. ID
25.00
E-03
B
B
A
2.500/div
2.500/div
.0000
.0000
ID
(A)
A
ID
ID 1.000/div (mA)
10.00
.0000
1 E-05
1.000/div (mA)
ID
LSK389A
& BB – ID vs. VGS
LSK170A &
1 E-02
(mA)
ID
IDDecade/div (A)
1 E-02
Decade/div (A)
LSK389A
&B
B – ID vs. VGS
LSK170A &
10.00
B
decade/div
A
1.000/div
1 E-12
.0000
VG
VG.2000/div (V)
.2000/div (V)
-2.000
.0000
VG
VG .2000/div (V)
-2.0000
.2000/div (V)
Doc 201110 11/19/2019 Rev# A22 ECN# LSK170
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Page 5 of 7
LSK170 A/B/C/D
High Input Impedance, Ultra-Low Noise, Single N-Channel JFET
Typical Characteristics
Drain Current Transconductance vs.
Gate-Source Cutoff Voltage
45
22
20
40
18
35
16
14
30
12
10
25
8
6
20
4
-1.1
-1.0
-.90
-.80
-.70
-.60
-.50
-.40
Doc 201110 11/19/2019 Rev# A22 ECN# LSK170
VDS = 10V
ID = 2mA
1.5
1.0
0.5
0.0
10
-1.2
15
2
2.0
en-Noise Voltage (nV/√Hz)
gfs @ VDS = 10V, VGS = 0V, f = 1kHz
IDSS @ VDS = 10V, VGS = 0V
gfs-Forward Transconductance(mS)
IDSS-Saturation Drain Current(mA)
24
Equivalent Input Noise Voltage
vs. Frequency
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100
1,000
10,000
100,000
f – Frequency (Hz)
Page 6 of 7
LSK170 A/B/C/D
High Input Impedance, Ultra-Low Noise, Single N-Channel JFET
Ordering Information
STANDARD PART CALL-OUT
CUSTOM PART CALL-OUT
LSK170A TO-92 3L RoHS
LSK170A TO-92 3L RoHS SELXXXX
LSK170B TO-92 3L RoHS
LSK170B TO-92 3L RoHS SELXXXX
LSK170C TO-92 3L RoHS
LSK170C TO-92 3L RoHS SELXXXX
LSK170D TO-92 3L RoHS
LSK170D TO-92 3L RoHS SELXXXX
LSK170A SOT-23 3L RoHS
LSK170A SOT-23 3L RoHS SELXXXX
LSK170B SOT-23 3L RoHS
LSK170B SOT-23 3L RoHS SELXXXX
LSK170C SOT-23 3L RoHS
LSK170C SOT-23 3L RoHS SELXXXX
LSK170D SOT-23 3L RoHS
LSK170D SOT-23 3L RoHS SELXXXX
LSK170A SOT-89 3L RoHS
LSK170A SOT-89 3L RoHS SELXXXX
LSK170B SOT-89 3L RoHS
LSK170B SOT-89 3L RoHS SELXXXX
LSK170C SOT-89 3L RoHS
LSK170C SOT-89 3L RoHS SELXXXX
LSK170D SOT-89 3L RoHS
LSK170D SOT-89 3L RoHS SELXXXX
CUSTOM PARTS INCLUDE SEL + 4 DIGIT
NUMERIC CODE)
Package Dimensions
SOT-23
TO-92 3 Lead
SOT-23 3 Lead
SOT-89 3 Lead
0.89
1.03
0.37
0.51
1
1.78
2.05
2.80
3.04
3
2
1.20
1.40
2.10
2.64
0.89
1.12
0.085
0.180
0.013
0.100
0.55
DIMENSIONS IN
MILLIMETERS
Notes
1.
2.
3.
4.
Absolute maximum ratings are limiting values above which serviceability may be impaired.
Pulse Test: PW ≤ 300µs, Duty Cycle ≤ 3%
All characteristics MIN/TYP/MAX numbers are absolute values. Negative values indicate electrical polarity only.
When ordering include the full Linear Systems part number and package type. Linear Systems creates custom parts on a case by case basis. To learn whether Linear
Systems can meet your requirements, please send your drawing along with a detailed description of the device specifications to sales@linearsystems.com. One of our
qualified representatives will contact you.
5. All standard parts are RoHS compliant. Contact the factory for availability of non-RoHS parts.
6. Information furnished by Linear Integrated Systems is believed to be accurate and reliable. However, no responsibility is assumed for its use; nor for any infringement of
patents or other rights of third parties which may result from its use. No license is granted by implication or otherwise under any patent or patent rights of Linear Integrated
Systems.
7. Voltage specifications are not tested 100%, but guaranteed by lot sampling. Contact the factory if 100% test is required.
Doc 201110 11/19/2019 Rev# A22 ECN# LSK170
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Page 7 of 7