ALD ALD114804ASC

ADVANCED
LINEAR
DEVICES, INC.
e
TM
EPAD
EN
®
AB
LE
D
ALD114804/ALD114804A/ALD114904/ALD114904A
QUAD/DUAL N-CHANNEL DEPLETION MODE EPAD®
MATCHED PAIR MOSFET ARRAY
VGS(th)= -0.4V
GENERAL DESCRIPTION
APPLICATIONS
ALD114804/ALD114804A/ALD114904/ALD114904A are monolithic quad/dual NChannel MOSFETS matched at the factory using ALD’s proven EPAD® CMOS
technology. These devices are intended for low voltage, small signal applications. They are excellent functional replacements for normally-closed relay applications, as they are normally on (conducting) without any power applied, but
could be turned off or modulated when system power supply is turned on. These
MOSFETS have the unique characteristics of, when the gate is grounded, operating in the resistance mode for low drain voltage levels and in the current source
mode for higher voltage levels and providing a constant drain current.
• Functional replacement of Form B (NC) relays
• Ultra low power (nanowatt) analog and digital
circuits
• Ultra low operating voltage (<0.2V) analog and
digital circuits
• Sub-threshold biased and operated circuits
• Zero power fail safe circuits in alarm systems
• Backup battery circuits
• Power failure and fail safe detector
• Source followers and high impedance buffers
• Precision current mirrors and current sources
• Capacitives probes and sensor interfaces
• Charge detectors and charge integrators
• Differential amplifier input stage
• High side switches
• Peak detectors and level shifters
• Sample and Hold
• Current multipliers
• Discrete analog switches and multiplexers
• Discrete voltage comparators
ALD114804/ALD114804A/ALD114904/ALD114904A MOSFETS are designed for
exceptional device electrical characteristics matching. As these devices are on
the same monolithic chip, they also exhibit excellent temperature tracking characteristics. They are versatile as design components for a broad range of analog
applications, such as basic building blocks for current sources, differential amplifier input stages, transmission gates, and multiplexer applications.
Besides matched pair electrical characteristics, each individual MOSFET also
exhibits well controlled parameters, enabling the user to depend on tight design
limits corresponding to well matched characteristics.
These depletion mode devices are built for minimum offset voltage and differential thermal response, and they are suitable for switching and amplifying applications in single supply (0.4V to + 5V ) or dual supply (+/- 0.4V to +/-5V) systems
where low input bias current, low input capacitance and fast switching speed are
desired. These devices exhibit well controlled turn-off and sub-threshold
charactersitics and therefore can be used in designs that depend on sub-threshold characteristics.
The ALD114804/ALD114804A/ALD114904/ALD114904A are suitable for use in
precision applications which require very high current gain, beta, such as current
mirrors and current sources. A sample calculation of the DC current gain at a
drain current of 3mA and gate input leakage current of 30pA = 100,000,000. It is
recommended that the user, for most applications, connect V+ pin to the most
positive voltage potential (or left open unused) and V- and N/C pins to the most
negative voltage potential in the system. All other pins must have voltages within
these voltage limits.
FEATURES
• Depletion mode (normally ON)
• Precision Gate Threshold Voltages: -0.4V +/- 0.02V
• Nominal RDS(ON) @VGS=0.0V of 5.4KΩ
• Matched MOSFET to MOSFET characteristics
• Tight lot to lot parametric control
• Low input capacitance
• VGS(th) match (VOS) — 20mV
• High input impedance — 1012Ω typical
• Positive, zero, and negative VGS(th) temperature coefficient
• DC current gain >108
• Low input and output leakage currents
ORDERING INFORMATION
Operating Temperature Range*
0°C to +70°C
0°C to +70°C
16-Pin
16-Pin
8-Pin
8-Pin
Plastic Dip
SOIC
Plastic Dip
SOIC
Package
Package
Package
Package
ALD114804APC ALD114804ASC ALD114904APA ALD114904ASA
ALD114804 PC ALD114804SC ALD114904PA
ALD114904SA
PIN CONFIGURATION
ALD114804
N/C*
1
GN1
2
DN1
3
S12
4
V-
5
DN4
6
GN4
7
N/C*
8
V-
V-
M1
M2
V+
VM4
M3
16
N/C*
15
GN2
14
DN2
13
V+
12
S34
11
DN3
10
GN3
9
V-
V-
N/C*
PC, SC PACKAGES
ALD114904
N/C*
1
GN1
2
DN1
3
S12
4
V-
V-
M1
M2
V-
8
N/C*
7
GN2
6
DN2
5
V-
PA, SA PACKAGES
*N/C pins are internally connected.
Connect to V- to reduce noise
* Contact factory for industrial temp. range or user-specified threshold voltage values
Rev 1.0-0506 ©2005 Advanced Linear Devices, Inc. 415 Tasman Drive, Sunnyvale, California 94089-1706 Tel: (408) 747-1155 Fax: (408) 747-1286
www.aldinc.com
ABSOLUTE MAXIMUM RATINGS
Drain-Source voltage, VDS
Gate-Source voltage, VGS
Power dissipation
Operating temperature range PA, SA, PC, SC package
Storage temperature range
Lead temperature, 10 seconds
10.6V
10.6V
500 mW
0°C to +70°C
-65°C to +150°C
+260°C
OPERATING ELECTRICAL CHARACTERISTICS
V+ = +5V (or open) V- = -5V TA = 25°C unless otherwise specified
CAUTION: ESD Sensitive Device. Use static control procedures in ESD controlled environment.
ALD114808A / ALD114908A
Parameter
Symbol
Min
Typ
Gate Threshold Voltage
VGS(th)
-0.42
Offset Voltage
VGS1-VGS2
ALD110848 / ALD114908
Max
Min
Typ
Max
Unit
-0.40
-0.38
-0.44
-0.40
-0.36
V
IDS =1µA
VDS = 0.1V
VOS
2
5
7
20
mV
IDS =1µA
VGS1-VGS2 Tempco
∆VOS
5
5
µV/ °C
VDS1 = VDS2
GateThreshold Tempco
∆VGS(th)
-1.7
0.0
+1.6
-1.7
0.0
+1.6
mV/ °C
ID = 1µA
ID = 20µA, VDS = 0.1V
ID = 40µA
On Drain Current
IDS (ON)
12.0
3.0
12.0
3.0
mA
VGS = +9.1V
VGS = +3.6V
VDS = +5V
Forward Transconductance
GFS
1.4
1.4
mmho
VGS =+3.6 V
VDS = +8.6V
Transconductance Mismatch
∆GFS
1.8
1.8
%
Output Conductance
GOS
68
68
µmho
VGS =+3.6V
VDS = +8.6V
Drain Source On Resistance
RDS (ON)
500
500
Ω
VDS = 0.1V
VGS = +3.6V
Drain Source On Resistance
RDS (ON)
5.4
5.4
KΩ
VDS = 0.1V
VGS = +0.0V
Drain Source On Resistance
Tolerance
∆RDS (ON)
10
10
%
Drain Source On Resistance
Mismatch
∆RDS (ON)
0.5
0.5
%
Drain Source Breakdown
Voltage
BVDSX
Drain Source Leakage Current1
IDS (OFF)
Gate Leakage Current1
10
10
Test Condition
V
IDS = 1.0µA
VGS = -1.4V
10
100
4
10
100
4
pA
nA
VGS = -1.4V, VDS =+5V
TA = 125°C
IGSS
3
30
1
3
30
1
pA
nA
VDS = 0V VGS = +10V
TA =125°C
Input Capacitance
CISS
2.5
2.5
pF
Transfer Reverse Capacitance
CRSS
0.1
0.1
pF
Turn-on Delay Time
ton
10
10
ns
V+ = 5V RL= 5KΩ
Turn-off Delay Time
toff
10
10
ns
V+ = 5V RL= 5KΩ
60
60
dB
f = 100KHz
Crosstalk
Notes:
1
Consists of junction leakage currents
ALD114804/ALD114804A/ALD114904/ALD114904A
Advanced Linear Devices
2