Intersil DG445 Monolithic, quad spst, cmos analog switch Datasheet

DG444, DG445
Data Sheet
Monolithic, Quad SPST, CMOS Analog
Switches
The DG444 and DG445 monolithic CMOS analog switches
are drop-in replacements for the popular DG211 and DG212
series devices. They include four independent single pole
single throw (SPST) analog switches and TTL and CMOS
compatible digital inputs.
June 1999
File Number
Features
• ON Resistance (Max) . . . . . . . . . . . . . . . . . . . . . . . . . 85Ω
• Low Power Consumption (PD) . . . . . . . . . . . . . . . . <35µW
• Fast Switching Action
- tON (Max) . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 250ns
- tOFF (Max, DG444) . . . . . . . . . . . . . . . . . . . . . . . 140ns
These switches feature lower analog ON resistance (<85Ω)
and faster switch time (tON <250ns) compared to the DG211
and DG212. Charge injection has been reduced, simplifying
sample and hold applications.
• Low Charge Injection
The improvements in the DG444 series are made possible
by using a high voltage silicon-gate process. An epitaxial
layer prevents the latch-up associated with older CMOS
technologies. The 44V maximum voltage range permits
controlling ±20V signals when operating with ±20V power
supplies.
• Single or Split Supply Operation
The four switches are bilateral, equally matched for AC or
bidirectional signals. The ON resistance variation with
analog signals is quite low over a ±5V analog input range.
The switches in the DG444 and DG445 are identical,
differing only in the polarity of the selection logic.
3586.5
• Upgrade from DG211/DG212
• TTL, CMOS Compatible
Applications
• Audio Switching
• Battery Operated Systems
• Data Acquisition
• Hi-Rel Systems
• Sample and Hold Circuits
• Communication Systems
• Automatic Test Equipment
Pinout
DG444, DG445 (PDIP, SOIC)
TOP VIEW
Ordering Information
PART NUMBER
IN1
1
16 IN2
D1
2
15 D2
S1
3
14 S2
V-
4
13 V+
GND
5
12 VL
S4
6
11 S3
D4
7
10 D3
IN4
8
9 IN3
1
TEMP.
RANGE (oC)
PACKAGE
PKG. NO.
DG444DJ
-40 to 85
16 Ld PDIP
E16.3
DG444DY
-40 to 85
16 Ld SOIC
M16.15
DG445DJ
-40 to 85
16 Ld PDIP
E16.3
DG445DY
-40 to 85
16 Ld SOIC
M16.15
CAUTION: These devices are sensitive to electrostatic discharge; follow proper IC Handling Procedures.
http://www.intersil.com or 407-727-9207 | Copyright © Intersil Corporation 1999
DG444, DG445
Functional Diagrams
Pin Descriptions
DG444
DG445
S1
IN1
S1
IN1
D1
S2
IN2
D1
S2
IN2
D2
S3
IN3
D2
S3
IN3
D3
S4
IN4
D3
S4
IN4
D4
D4
SWITCHES SHOWN FOR LOGIC “1” INPUT
TRUTH TABLE
LOGIC
VIN
DG444
DG445
0
≤0.8V
ON
OFF
1
≥2.4V
OFF
ON
Schematic Diagram
PIN
SYMBOL
DESCRIPTION
1
IN1
Logic Control for Switch 1
2
D1
Drain (Output) Terminal for Switch 1
3
S1
Source (Input) Terminal for Switch 1
4
V-
Negative Power Supply Terminal
5
GND
6
S4
Source (Input) Terminal for Switch 4
7
D4
Drain (Output) Terminal for Switch 4
8
IN4
Logic Control for Switch 4
9
IN3
Logic Control for Switch 3
10
D3
Drain (Output) Terminal for Switch 3
11
S3
Source (Input) Terminal for Switch 3
12
VL
Logic Reference Voltage.
13
V+
Positive Power Supply Terminal (Substrate)
14
S2
Source (Input) Terminal for Switch 2
15
D2
Drain (Output) Terminal for Switch 2
16
IN2
Logic Control for Switch 2
Ground Terminal (Logic Common)
(One Channel)
V+
S
VL
VV+
INX
D
GND
V-
2
DG444, DG445
Absolute Maximum Ratings
Thermal Information
V+ to V- . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 44V
GND to V-. . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 25V
VL . . . . . . . . . . . . . . . . . . . . . . . . . . . . . (GND - 0.3V) to (V+) + 0.3V
Digital Inputs, VS , VD (Note 1). . . . . (V-) -2V to (V+) + 2V or 30mA,
Whichever Occurs First
Continuous Current (Any Terminal) . . . . . . . . . . . . . . . . . . . . . 30mA
Peak Current, S or D (Pulsed 1ms, 10% Duty Cycle Max) . . 100mA
Thermal Resistance (Typical, Note 2)
θJA (oC/W)
PDIP Package . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
90
SOIC Package . . . . . . . . . . . . . . . . . . . . . . . . . . . . .
115
Maximum Junction Temperature (Plastic Packages) . . . . . . . 150oC
Maximum Storage Temperature Range . . . . . . . . . . -65oC to 150oC
Maximum Lead Temperature (Soldering 10s) . . . . . . . . . . . . 300oC
(SOIC - Lead Tips Only)
Operating Conditions
Temperature Range . . . . . . . . . . . . . . . . . . . . . . . . . . -40oC to 85oC
Voltage Range . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . ±20V (Max)
Temperature Range . . . . . . . . . . . . . . . . . . . . . . . . . -55oC to 125oC
Input Low Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 0.8V (Max)
Input High Voltage . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 2.4V (Min)
Input Rise and Fall Time . . . . . . . . . . . . . . . . . . . . . . . . . . . . ≤20ns
CAUTION: Stresses above those listed in “Absolute Maximum Ratings” may cause permanent damage to the device. This is a stress only rating and operation of the
device at these or any other conditions above those indicated in the operational sections of this specification is not implied.
NOTES:
1. Signals on SX , DX , or INX exceeding V+ or V- will be clamped by internal diodes. Limit forward diode current to maximum current ratings.
2. θJA is measured with the component mounted on an evaluation PC board in free air.
Electrical Specifications
Test Conditions: V+ = +15V, V- = -15V, VL = 5V, VIN = 2.4V, 0.8V (Note 3),
Unless Otherwise Specified
TEMP
(oC)
(NOTE 4)
MIN
(NOTE 5)
TYP
(NOTE 4)
MAX
UNITS
25
-
120
250
ns
DG444
25
-
110
140
ns
DG445
25
-
160
210
ns
-1
-
pC
PARAMETER
TEST CONDITIONS
DYNAMIC CHARACTERISTICS
RL = 1kΩ, CL = 35pF, VS = ±10V
(Figure 1)
Turn-ON Time, tON
Turn-OFF Time, tOFF
Charge Injection, Q (Figure 2)
CL = 1nF, VG = 0V, RG = 0Ω
25
-
OFF Isolation (Figure 4)
RL = 50Ω, CL = 5pF, f = 1MHz
25
-
60
-
dB
25
-
-100
-
dB
25
-
4
-
pF
Drain OFF Capacitance, CD(OFF)
25
-
4
-
pF
Channel ON Capacitance,
CD(ON) + CS(ON)
25
-
16
-
pF
Crosstalk (Channel-to-Channel)
(Figure 3)
Source OFF Capacitance, CS(OFF)
f = 1MHz, VANALOG = 0 (Figure 5)
DIGITAL INPUT CHARACTERISTICS
Input Current VIN Low, IIL
VIN Under Test = 0.8V,
All Others = 2.4V
Full
-0.5
-0.00001
0.5
µA
Input Current VIN High, IIH
VIN Under Test = 2.4V,
All Others = 0.8V
Full
-0.5
0.00001
0.5
µA
Full
-15
-
15
V
25
-
50
85
Ω
Full
-
-
100
Ω
25
-0.5
0.01
0.5
nA
85
-5
-
5
nA
ANALOG SWITCH CHARACTERISTICS
Analog Signal Range, VANALOG
Drain-Source ON Resistance,
rDS(ON)
IS = 10mA, VD = ±8.5V,
V+ = 13.5V, V- = -13.5V
Source OFF Leakage Current, IS(OFF)
V+ = 16.5V, V- = -16.5V,
VD = ±15.5V, VS = 15.5V
3
DG444, DG445
Electrical Specifications
Test Conditions: V+ = +15V, V- = -15V, VL = 5V, VIN = 2.4V, 0.8V (Note 3),
Unless Otherwise Specified (Continued)
PARAMETER
TEST CONDITIONS
TEMP
(oC)
(NOTE 4)
MIN
(NOTE 5)
TYP
(NOTE 4)
MAX
UNITS
Drain OFF Leakage Current,
ID(OFF)
V+ = 16.5V, V- = -16.5V,
VD = ±15.5V, VS = 15.5V
25
-0.5
0.01
0.5
nA
85
-5
-
5
nA
Channel ON Leakage Current,
ID(ON) + IS(ON)
V+ = 16.5V, V- = -16.5V,
VS = VD , = ±15.5V
25
-0.5
0.08
0.5
nA
85
-10
-
10
nA
V+ = 16.5V, V- = -16.5V,
VIN = 0V or 5V
25
-
0.001
1
µA
85
-
-
5
µA
25
-1
-0.0001
-
µA
85
-5
-
-
µA
25
-
0.001
1
µA
85
-
-
5
µA
25
-1
-0.001
-
µA
85
-5
-
-
µA
POWER SUPPLY CHARACTERISTICS
Positive Supply Current, I+
Negative Supply Current, I-
Logic Supply Current, IL
Ground Current, IGND
Electrical Specifications
(Single Supply) Test Conditions: V+ = 12V, V- = 0V, VL = 5V, VIN = 2.4V, 0.8V (Note 3),
Unless Otherwise Specified
TEMP
(oC)
(NOTE 4)
MIN
(NOTE 5)
TYP
(NOTE 4)
MAX
UNITS
RL = 1kΩ, CL = 35pF, VS = 8V
(Figure 1)
25
-
300
450
ns
25
-
60
200
ns
CL = 1nF, VG = 6V, RG = 0Ω
25
-
2
-
pC
Full
0
-
12
V
25
-
100
160
Ω
Full
-
-
200
Ω
25
-
0.001
1
µA
Full
-
-
5
µA
25
-1
-0.0001
-
µA
Full
-5
-
-
µA
25
-
0.001
1
µA
Full
-
-
5
µA
25
-1
-0.001
-
µA
Full
-5
-
-
µA
PARAMETER
TEST CONDITIONS
DYNAMIC CHARACTERISTICS
Turn-ON Time, tON
Turn-OFF Time, tOFF
Charge Injection, Q (Figure 2)
ANALOG SWITCH CHARACTERISTICS
Analog Signal Range, VANALOG
Drain-Source ON Resistance, rDS(ON)
IS = -10mA, VD = 3V, 8V
V+ = 10.8V, VL = 5.25V
POWER SUPPLY CHARACTERISTICS
Positive Supply Current, I+
V+ = 13.2V, VIN = 0V or 5V,
VL = 5.25V
Negative Supply Current, I-
Logic Supply Current, IL
Ground Current, IGND
NOTES:
3. VIN = input voltage to perform proper function.
4. The algebraic convention whereby the most negative value is a minimum and the most positive a maximum, is used in this data sheet.
5. Typical values are for DESIGN AID ONLY, not guaranteed nor subject to production testing.
4
DG444, DG445
Test Circuits and Waveforms
VO is the steady state output with the switch on. Feedthrough via switch capacitance may result in spikes at the leading and trailing
edge of the output waveform.
50%
SWITCH
INPUT
0V
SWITCH
INPUT VS
VO
D1
S1
VO
IN1
tOFF
SWITCH
OUTPUT
V+
VL
tr < 20ns
tf < 20ns
3V
LOGIC
INPUT
80%
80%
CL
RL
LOGIC
INPUT
3V
GND
V-
0V
tON
NOTE: Logic input waveform is inverted for switches that have
the opposite logic sense.
Repeat test for Channels 2, 3 and 4.
For load conditions, see Specifications. CL includes fixture and
stray capacitance.
RL
V O = V S -----------------------------------R L + r DS ( ON )
FIGURE 1A. MEASUREMENT POINTS
FIGURE 1B. TEST CIRCUIT
FIGURE 1. SWITCHING TIMES
SWITCH
OUTPUT
VL
∆VO
INX
(DG444)
OFF
RG
OFF
ON
V+
D1
VO
VG
CL
V-
INX
(DG445)
VIN = 3V
ON
Q = ∆VO x CL
OFF
OFF
GND
FIGURE 2B. TEST CIRCUIT
FIGURE 2A. MEASUREMENT POINTS
FIGURE 2. CHARGE INJECTION
V+
+15V
+15V
C
C
SIGNAL
GENERATOR 10dBm
SIGNAL
GENERATOR 10dBm
VS
VD
50Ω
0V, 2.4V
IN1
IN2
0V, 2.4V
VD
ANALYZER
RL
NC
C
GND
V-15V
FIGURE 3. CROSSTALK TEST CIRCUIT
5
V+
VS
INX
0V, 2.4V
VD
ANALYZER
RL
GND
V-
C
-15V
FIGURE 4. OFF ISOLATION TEST CIRCUIT
DG444, DG445
Test Circuits and Waveforms
(Continued)
+15V
C
V+
VS
INX
0V, 2.4V
IMPEDANCE
ANALYZER
VD
f = 1MHz
C
V-
GND
-15V
FIGURE 5. SOURCE/DRAIN CAPACITANCES TEST CIRCUIT
Application Information
VIN
FET INPUT
OP AMP 3
2
+5V
12
2
+15V
7
6
4
+15V
-15V
13
+
VOUT
-
VL
V+
+5V
+15V
VL
+15V
V+
1/ DG444
4
+15V
VOUT
3
+5V
GAIN1
AV = 1
1
R1
90kΩ
15
GAIN2
AV = 10
10kΩ
GND V-
16
R2
5kΩ
11
9
R3
4kΩ
6
7
GAIN4
AV = 100
VIN
14
10
GAIN3
AV = 20
0V
8
R4
1kΩ
DG444 OR DG445
VGND
4
-15V
5
GAIN ERROR IS DETERMINED ONLY BY
THE RESISTOR TOLERANCE, OP AMP OFFSET
AND CMRR WILL LIMIT ACCURACY OF CIRCUIT
R1 + R2 + R3 + R4
V OUT
---------------- = ------------------------------------------------- = 100
V IN
R4
WITH SW4 CLOSED
FIGURE 6. PRECISION WEIGHTED RESISTOR
PROGRAMMABLE GAIN AMPLIFIER
6
FIGURE 7. LEVEL SHIFTER
0V
DG444, DG445
Typical Performance Curves
105
104
4
IL , I+, I-, IGND (nA)
103
VIN (V)
3
VL = 7V
2
VL = 5V
I+, IGND
102
10
-(I-)
1
0.1
1
0.01
0
0
4
8
12
SUPPLY VOLTAGE (±V)
16
20
IL
0.001
-55
FIGURE 8. SWITCHING THRESHOLD vs SUPPLY VOLTAGE
0
50
TEMPERATURE (oC)
100
125
FIGURE 9. SUPPLY CURRENT vs TEMPERATURE
105
80
V+ = +15V
V- = -15V
70
104
60
rDS(ON) (Ω)
IIN (pA)
103
102
10
50
85oC
40
25oC
30
0oC
-40oC
20
1
10
0.1
-55
0
50
100
0
-15
125
0
VD (V)
TEMPERATURE (oC)
FIGURE 10. INPUT CURRENT vs TEMPERATURE
15
FIGURE 11. rDS(ON) vs VD AND TEMPERATURE
50
140
120
40
CROSSTALK
V+ = +15V
V- = -15V
30
100
20
Q (pC)
(dB)
80
OFF ISOLATION
60
10
CL = 10nF
CL = 1nF
0
40
-10
20
0
100
V+ = +15V
V- = -15V
PGEN = 10dBm
1K
-20
10K
100K
1M
10M
FREQUENCY (Hz)
FIGURE 12. CROSSTALK REJECTION AND OFF ISOLATION
vs FREQUENCY
7
-30
-10
0
VS (V)
FIGURE 13. CHARGE INJECTION vs SOURCE VOLTAGE
10
DG444, DG445
Typical Performance Curves
(Continued)
25
20
V+ = +15V
V- = -15V
IS(OFF) , ID(OFF)
0
20
-20
IS , ID (pA)
CS , D (pF)
CS(ON) + CD(ON)
15
10
-40
IS(ON) + ID(ON)
-60
V+ = +15V
V- = -15V
FOR I(OFF) , VD = -VS
CS(OFF) , CD(OFF)
5
-80
0
-15
-10
-5
0
5
10
-100
-15
15
-10
-5
VA (V)
FIGURE 14. SOURCE/DRAIN CAPACITANCE vs ANALOG
VOLTAGE
0
VS , VD (V)
5
10
15
FIGURE 15. LEAKAGE CURRENTS vs ANALOG VOLTAGE
150
V+ = +15V, V- = -15V
VL = 5V
160
V+ = +15V
V- = -15V
140
tON
100
tON
tON, tOFF (ns)
tON, tOFF (ns)
120
100
80
tOFF
50
tOFF
60
40
0
20
2
3
4
2
5
3
VIN (V)
4
5
VIN (V)
FIGURE 16. SWITCHING TIME vs INPUT VOLTAGE (DG444)
FIGURE 17. SWITCHING TIME vs INPUT VOLTAGE (DG445)
160
160
VL = 5V
140
140
tOFF
tON
120
tON, tOFF (ns)
tON, tOFF (ns)
120
100
80
60
100
80
tON
60
tOFF
40
40
20
20
10
12
14
16
18
SUPPLY VOLTAGE (±V)
20
22
FIGURE 18. SWITCHING TIME vs POWER SUPPLY VOLTAGE
(DG444)
8
10
12
14
16
18
20
22
SUPPLY VOLTAGE (±V)
FIGURE 19. SWITCHING TIME vs POWER SUPPLY VOLTAGE
(DG445)
DG444, DG445
Typical Performance Curves
(Continued)
400
500
V+ = +12V, V- = 0V
VL = 5V
400
tON, tOFF (ns)
300
tON, tOFF (ns)
V- = 0V, VL = 5V
tON
200
100
tOFF
tON (444)
300
tON (445)
200
tOFF (445)
100
tOFF (444)
0
0
2
3
4
8
5
VIN (V)
FIGURE 20. SWITCHING TIME vs INPUT VOLTAGE (DG444)
(SINGLE 12V SUPPLY)
10
12
14
16
18
POSITIVE SUPPLY (V)
20
22
FIGURE 21. SWITCHING TIMES vs SINGLE SUPPLY VOLTAGE
10
30
V+ = 12V
V- = 0V
IS(OFF) , ID(OFF)
0
20
IS , ID (pA)
Q (pC)
-10
10
CL = 10nF
-20
CL = 1nF
IS(ON) + ID(ON)
V+ = +12V
V- = 0V
FOR ID , VS = 0
FOR IS, VD = 0
0
-30
-40
-10
0
4
0
8
6
VS , VD (V)
VS (V)
FIGURE 22. CHARGE INJECTION vs SOURCE VOLTAGE
(SINGLE 12V SUPPLY)
FIGURE 23. SOURCE/DRAIN LEAKAGE CURRENTS (SINGLE
12V SUPPLY)
20
V+ = +12V
V- = 0V
CS(ON) + CD(ON)
CS , D (pF)
15
10
CS(OFF) , CD(OFF)
5
0
0
6
VA (V)
12
FIGURE 24. SOURCE/DRAIN CAPACITANCE vs ANALOG VOLTAGE (SINGLE 12V SUPPLY)
9
12
DG444, DG445
Die Characteristics
DIE DIMENSIONS:
PASSIVATION:
2160µm x 1760µm x 485
Type: Nitride
Thickness: 8kÅ ±1kÅ
METALLIZATION:
WORST CASE CURRENT DENSITY:
Type: SiAl
Thickness: 12kÅ ±1kÅ
9.1 x 104 A/cm2
Metallization Mask Layout
DG444, DG445
D1
(2)
IN1
(1)
IN2
(16)
(15) D2
(14) S2
S1 (3)
(13) V+ SUBSTRATE
V- (4)
GND (5)
(12) VL
S4 (6)
(11) S3
(7)
D4
(8)
IN4
(9)
IN3
(10)
D3
All Intersil semiconductor products are manufactured, assembled and tested under ISO9000 quality systems certification.
Intersil semiconductor products are sold by description only. Intersil Corporation reserves the right to make changes in circuit design and/or specifications at any time without notice. Accordingly, the reader is cautioned to verify that data sheets are current before placing orders. Information furnished by Intersil is believed to be accurate and
reliable. However, no responsibility is assumed by Intersil or its subsidiaries for its use; nor for any infringements 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 Intersil or its subsidiaries.
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10
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