SCDS201H AUGUST   2005  – February  2015 TS5A23159

PRODUCTION DATA.  

  1. Features
  2. Applications
  3. Description
  4. Revision History
  5. Pin Configuration and Functions
  6. Specifications
    1. 6.1 Absolute Maximum Ratings
    2. 6.2 ESD Ratings
    3. 6.3 Recommended Operating Conditions
    4. 6.4 Thermal Information
    5. 6.5 Electrical Characteristics for 5-V Supply
    6. 6.6 Electrical Characteristics for 3.3-V Supply
    7. 6.7 Electrical Characteristics for 2.5-V Supply
    8. 6.8 Electrical Characteristics for 1.8-V Supply
    9. 6.9 Typical Characteristics
  7. Parameter Measurement Information
  8. Detailed Description
    1. 8.1 Overview
    2. 8.2 Functional Block Diagram
    3. 8.3 Feature Description
    4. 8.4 Device Functional Modes
  9. Application and Implementation
    1. 9.1 Application Information
    2. 9.2 Typical Application
      1. 9.2.1 Design Requirements
      2. 9.2.2 Detailed Design Procedure
      3. 9.2.3 Application Curve
  10. 10Power Supply Recommendations
  11. 11Layout
    1. 11.1 Layout Guidelines
    2. 11.2 Layout Example
  12. 12Device and Documentation Support
    1. 12.1 Trademarks
    2. 12.2 Electrostatic Discharge Caution
    3. 12.3 Glossary
  13. 13Mechanical, Packaging, and Orderable Information

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発注情報

6 Specifications

6.1 Absolute Maximum Ratings

over operating free-air temperature range (unless otherwise noted)(1)(2)
MIN MAX UNIT
VCC Supply voltage(3) –0.5 6.5 V
VNC
VNO
VCOM		 Analog voltage(3)(4)(5) –0.5 VCC + 0.5 V
IK Analog port diode current VNC, VNO, VCOM < 0 –50 mA
INC
INO
ICOM		 On-state switch current VNC, VNO, VCOM = 0 to VCC –200 200 mA
On-state peak switch current(6) –400 400
VIN Digital input voltage(3)(4) –0.5 6.5 V
IIK Digital input clamp current VI < 0 –50 mA
ICC Continuous current through VCC 100 mA
IGND Continuous current through GND –100 100 mA
Tstg Storage temperature –65 150 °C
(1) Stresses beyond those listed under Absolute Maximum Ratings may cause permanent damage to the device. These are stress ratings only, which do not imply functional operation of the device at these or any other conditions beyond those indicated under Recommended Operating Conditions. Exposure to absolute-maximum-rated conditions for extended periods may affect device reliability.
(2) The algebraic convention, whereby the most negative value is a minimum and the most positive value is a maximum
(3) All voltages are with respect to ground, unless otherwise specified.
(4) The input and output voltage ratings may be exceeded if the input and output clamp-current ratings are observed.
(5) This value is limited to 5.5 V maximum.
(6) Pulse at 1-ms duration < 10% duty cycle

6.2 ESD Ratings

VALUE UNIT
V(ESD) Electrostatic discharge Human-body model (HBM), per ANSI/ESDA/JEDEC JS-001(1) ±2000 V
Charged-device model (CDM), per JEDEC specification JESD22-C101(2) ±1000
(1) JEDEC document JEP155 states that 500-V HBM allows safe manufacturing with a standard ESD control process.
(2) JEDEC document JEP157 states that 250-V CDM allows safe manufacturing with a standard ESD control process.

6.3 Recommended Operating Conditions

over operating free-air temperature range (unless otherwise noted)
MIN MAX UNIT
VCC Supply LC Voltage 0 5.5 V
VNC
VNO
VCOM		 Analog voltage 0 VCC
VIN Digital input voltage range 0 VCC

6.4 Thermal Information

THERMAL METRIC(1) TS5A23159 UNIT
DGS (VSSOP) RSE (UQFN)
10 PINS 10 PINS
RθJA Junction-to-ambient thermal resistance 203.9 180.8 °C/W
RθJC(top) Junction-to-case (top) thermal resistance 88.3 117.8
RθJB Junction-to-board thermal resistance 123.9 98.6
ψJT Junction-to-top characterization parameter 2.1 6.8
ψJB Junction-to-board characterization parameter 122.5 98.4
RθJC(bot) Junction-to-case (bottom) thermal resistance
(1) For more information about traditional and new thermal metrics, see the IC Package Thermal Metrics application report, SPRA953.

6.5 Electrical Characteristics for 5-V Supply

VCC = 4.5 V to 5.5 V, TA = –40°C to 85°C (unless otherwise noted)(1)
PARAMETER TEST CONDITIONS TA VCC MIN TYP MAX UNIT
ANALOG SWITCH
VCOM
VNO
VNC		 Analog signal range 0 VCC V
Rpeak Peak ON
resistance		 0 ≤ (VNO or VNC) ≤ VCC,
ICOM = –100 mA,		 Switch ON,
See Figure 14		 25°C 4.5 V 0.8 1.1 Ω
Full 1.5
Ron ON-state
resistance		 VNO or VNC = 2.5 V,
ICOM = –100 mA,		 Switch ON,
See Figure 14		 25°C 4.5 V 0.7 0.9 Ω
Full 1.1
ΔRon ON-state
resistance match
between
channels		 VNO or VNC = 2.5 V,
ICOM = –100 mA,		 Switch ON,
See Figure 14		 25°C 4.5 V 0.05 0.1 Ω
Full 0.1
Ron(flat) ON-state
resistance
flatness		 0 ≤ (VNO or VNC) ≤ VCC,
ICOM = –100 mA,		 Switch ON,
See Figure 14		 25°C 4.5 V 0.15 Ω
VNO or VNC = 1 V, 1.5 V,
2.5 V,
ICOM = –100 mA,		 Switch ON,
See Figure 14		 25°C 0.1 0.25
Full 0.25
INO(OFF),
INC(OFF)		 NC, NO
OFF leakage current		 VNC or VNO = 1 V,
VCOM = 1 V to 4.5 V,
or
VNC or VNO = 4.5 V,
VCOM = 1 V to 4.5 V,		 Switch OFF,
See Figure 15		 25°C 5.5 V –20 2 20 nA
Full –100 100
VNC or VNO = 0 to 5.5 V,
VCOM = 5.5 V to 0,		 Switch OFF,
See Figure 15		 25°C 0 V –1 0.2 1 μA
INC(PWROFF),
INO(PWROFF)		 Full –20 20
INO(ON),
INC(ON)		 NC, NO
ON leakage
current		 VNC or VNO = 1 V,
VCOM = Open,
or
VNC or VNO = 4.5 V,
VCOM = Open,		 Switch ON,
See Figure 16		 25°C 5.5 V –20 2 20 nA
Full –100 100
ICOM(PWROFF) COM
OFF leakage
current		 VNC or VNO = 0 to 5.5 V,
VCOM = 5.5 V to 0,		 Switch OFF,
See Figure 15		 25°C 0 V –1 0.1 1 μA
Full –20 20
ICOM(ON) COM
ON leakage
current		 VNC or VNO = Open,
VCOM = 1 V,
or
VNC or VNO = Open,
VCOM = 4.5 V, 		Switch ON,
See Figure 16		 25°C 5.5 V –20 2 20 nA
Full –100 100
DIGITAL CONTROL INPUTS (IN1, IN2)(2)
VIH Input logic high Full 2.4 5.5 V
VIL Input logic low Full 0 0.8 V
IIH, IIL Input leakage current VIN = 5.5 V or 0 25°C 5.5 V –2 2 nA
Full –100 100
DYNAMIC
tON Turnon time VCOM = VCC,
RL = 50 Ω,		 CL = 35 pF,
See Figure 18		 25°C 5 V 1 8 13 ns
Full 4.5 V to
5.5 V		 1 16.5
tOFF Turnoff time VCOM = VCC,
RL = 50 Ω,		 CL = 35 pF,
See Figure 18		 25°C 5 V 1 5 8 ns
Full 4.5 V to
5.5 V		 1 8
tBBM Break-before-make time VNC = VNO = VCC,
RL = 50 Ω,		 CL = 35 pF,
See Figure 19		 25°C 5 V 1 5.5 13 ns
Full 4.5 V to
5.5 V		 1 14
QC Charge
injection		 VGEN = 0,
RGEN = 0,		 CL = 1 nF,
See Figure 23		 25°C 5 V –7 pC
CNC(OFF),
CNO(OFF)		 NC, NO
OFF
capacitance		 VNC or VNO = VCC or GND,
Switch OFF,		 See Figure 17 25°C 5 V 18 pF
CNC(ON),
CNO(ON)		 NC, NO
ON
capacitance		 VNC or VNO = VCC or GND,
Switch ON,		 See Figure 17 25°C 5 V 55 pF
CCOM(ON) COM
ON
capacitance		 VCOM = VCC or GND,
Switch ON,		 See Figure 17 25°C 5 V 54.5 pF
CI Digital input
capacitance		 VIN = VCC or GND, See Figure 17 25°C 5 V 2 pF
BW Bandwidth RL = 50 Ω,
Switch ON,		 See Figure 20 25°C 5 V 100 MHz
OISO OFF isolation RL = 50 Ω,
f = 1 MHz,		 Switch OFF,
See Figure 21		 25°C 5 V –64 dB
XTALK Crosstalk RL = 50 Ω,
f = 1 MHz,		 Switch ON,
See Figure 22		 25°C 5 V –64 dB
THD Total
harmonic
distortion		 RL = 600 Ω,
CL = 50 pF, 		f = 20 Hz to 20 kHz,
See Figure 24		 25°C 5 V 0.004%
SUPPLY
ICC Positive
supply
current		 VIN = VCC or GND, Switch ON or OFF 25°C 5.5 V 10 50 nA
Full 750
(1) The algebraic convention, whereby the most negative value is a minimum and the most positive value is a maximum
(2) All unused digital inputs of the device must be held at VCC or GND to ensure proper device operation. Refer to the TI application report, Implications of Slow or Floating CMOS Inputs,SCBA004.

6.6 Electrical Characteristics for 3.3-V Supply

VCC = 3 V to 3.6 V, TA = –40°C to 85°C (unless otherwise noted)(1)
PARAMETER TEST CONDITIONS TA VCC MIN TYP MAX UNIT
ANALOG SWITCH
VCOM, VNO, VNC Analog signal range 0 VCC V
Rpeak Peak ON
resistance		 0 ≤ (VNO or VNC) ≤ VCC,
ICOM = –100 mA,		 Switch ON,
See Figure 14		 25°C 3 V 1.3 1.6 Ω
Full 2
Ron ON-state
resistance		 VNO or VNC = 2 V,
ICOM = –100 mA,		 Switch ON,
See Figure 14		 25°C 3 V 1.2 1.5 Ω
Full 1.7
ΔRon ON-state
resistance
match
between
channels		 VNO or VNC = 2 V, 0.8 V,
ICOM = –100 mA,		 Switch ON,
See Figure 14		 25°C 3 V 0.1 0.15 Ω
Full 0.2
Ron(flat) ON-state
resistance
flatness		 0 ≤ (VNO or VNC) ≤ VCC,
ICOM = –100 mA,		 Switch ON,
See Figure 14		 25°C 3 V 0.15 Ω
VNO or VNC = 2 V, 0.8 V,
ICOM = –100 mA,		 Switch ON,
See Figure 14		 25°C
Full
INO(OFF),
INC(OFF)		 NC, NO
OFF leakage
current		 VNC or VNO = 1 V,
VCOM = 1 V to 3 V,
or
VNC or VNO = 3 V,
VCOM = 1 V to 3 V,		 Switch OFF,
See Figure 15		 25°C 3.6 V –20 2 20 nA
Full –50 50
INC(PWROFF),
INO(PWROFF)		 VNC or VNO = 0 to 3.6 V,
VCOM = 3.6 V to 0,		 Switch OFF,
See Figure 15		 25°C 0 V –1 0.2 1 μA
Full –15 15
INO(ON),
INC(ON)		 NC, NO
ON leakage
current		 VNC or VNO = 1 V,
VCOM = Open,
or
VNC or VNO = 3 V,
VCOM = Open,		 Switch ON,
See Figure 16		 25°C 3.6 V –10 2 10 nA
Full –20 20
ICOM(PWROFF) COM
OFF leakage
current		 VNC or VNO = 3.6 V to 0,
VCOM = 0 to 3.6 V,		 Switch OFF,
See Figure 15		 25°C 0 V –1 0.2 1 μA
Full –15 15
ICOM(ON) COM
ON leakage
current		 VNC or VNO = Open,
VCOM = 1 V,
or
VNC or VNO = Open,
VCOM = 3 V, 		Switch ON,
See Figure 16		 25°C 3.6 V –10 2 10 nA
Full –20 20
DIGITAL CONTROL INPUTS (IN1, IN2)(2)
VIH Input logic high Full 2 5.5 V
VIL Input logic low Full 0 0.8 V
IIH, IIL Input leakage current VIN = 5.5 V or 0 25°C 3.6 V –2 2 nA
Full –20 20
DYNAMIC
tON Turnon time VCOM = VCC,
RL = 50 Ω,		 CL = 35 pF,
See Figure 18		 25°C 3.3 V 5 11 19 ns
Full 3 V to
3.6 V		 3 22
tOFF Turnoff time VCOM = VCC,
RL = 50 Ω,		 CL = 35 pF,
See Figure 18		 25°C 3.3 V 1 5 9 ns
Full 3 V to
3.6 V		 1 9
tBBM Break-before-make time VNC = VNO = VCC,
RL = 50 Ω,		 CL = 35 pF,
See Figure 19		 25°C 3.3 V 1 7 17 ns
Full 3 V to
3.6 V		 1 20
QC Charge
injection		 VGEN = 0,
RGEN = 0,		 CL = 1 nF,
See Figure 23		 25°C 3.3 V –4 pC
CNC(OFF), CNO(OFF) NC, NO
OFF
capacitance		 VNC or VNO = VCC or GND,
Switch OFF,		 See Figure 17 25°C 3.3 V 18 pF
CNC(ON), CNO(ON) NC, NO
ON
capacitance		 VNC or VNO = VCC or GND,
Switch ON,		 See Figure 17 25°C 3.3 V 56 pF
CCOM(ON) COM
ON
capacitance		 VCOM = VCC or GND,
Switch ON,		 See Figure 17 25°C 3.3 V 56 pF
CI Digital input
capacitance		 VIN = VCC or GND, See Figure 17 25°C 3.3 V 2 pF
BW Bandwidth RL = 50 Ω,
Switch ON,		 See Figure 20 25°C 3.3 V 100 MHz
OISO OFF isolation RL = 50 Ω,
f = 1 MHz,		 Switch OFF,
See Figure 21		 25°C 3.3 V –64 dB
XTALK Crosstalk RL = 50 Ω,
f = 1 MHz,		 Switch ON,
See Figure 22		 25°C 3.3 V –64 dB
THD Total harmonic distortion RL = 600 Ω,
CL = 50 pF,		 f = 20 Hz to 20 kHz,
See Figure 24		 25°C 3.3 V 0.01%
SUPPLY
ICC Positive supply current VIN = VCC or GND, Switch ON or OFF 25°C 3.6 V 25 nA
Full 150
(1) The algebraic convention, whereby the most negative value is a minimum and the most positive value is a maximum
(2) All unused digital inputs of the device must be held at VCC or GND to ensure proper device operation. Refer to the TI application report, Implications of Slow or Floating CMOS Inputs,SCBA004.

6.7 Electrical Characteristics for 2.5-V Supply(1)

VCC = 2.3 V to 2.7 V, TA = –40°C to 85°C (unless otherwise noted)
PARAMETER TEST CONDITIONS TA VCC MIN TYP MAX UNIT
ANALOG SWITCH
VCOM, VNO, VNC Analog signal
range		 0 VCC V
Rpeak Peak ON
resistance		 0 ≤ (VNO or VNC) ≤ VCC,
ICOM = –8 mA,		 Switch ON,
See Figure 14		 25°C 2.3 V 1.8 2.5 Ω
Full 2.7
Ron ON-state
resistance		 VNO or VNC = 1.8 V,
ICOM = –8 mA,		 Switch ON,
See Figure 14		 25°C 2.3 V 1.5 2 Ω
Full 2.4
ΔRon ON-state
resistance
match
between
channels		 VNO or VNC = 1.8 V, 0.8 V,
ICOM = –8 mA,		 Switch ON,
See Figure 14		 25°C 2.3 V 0.15 0.2 Ω
Full 0.2
Ron(flat) ON-state
resistance
flatness		 0 ≤ (VNO or VNC) ≤ VCC,
ICOM = –8 mA,		 Switch ON,
See Figure 14		 25°C 2.3 V 0.6 Ω
VNO or VNC = 0.8 V, 1.8 V,
ICOM = –8 mA,		 Switch ON,
See Figure 14		 25°C 0.6 1
Full 1
INO(OFF),
INC(OFF)		 NC, NO
OFF leakage
current		 VNC or VNO = 0.5 V,
VCOM = 0.5 V to 2.3 V,
or
VNC or VNO = 2.2 V,
VCOM = 0.5 V to 2.3 V,		 Switch OFF,
See Figure 15		 25°C 2.3 V –20 2 20 nA
Full –50 50
INC(PWROFF),
INO(PWROFF)		 VNC or VNO = 0 to 2.7 V,
VCOM = 2.7 V to 0,		 Switch OFF,
See Figure 15		 25°C 0 V –1 0.1 1.0 μA
Full –10 10
INO(ON),
INC(ON)		 NC, NO
ON leakage
current		 VNC or VNO = 0.5 V,
VCOM = Open,
or
VNC or VNO = 2.2 V,
VCOM = Open,		 Switch ON,
See Figure 16		 25°C 2.7 V –10 2 10 nA
Full –20 20
ICOM(PWROFF) COM
OFF leakage
current		 VNC or VNO = 2.7 V to 0,
VCOM = 0 to 2.7 V,		 Switch OFF,
See Figure 15		 25°C 0 V –1 0.1 1 μA
Full –10 10
ICOM(ON) COM
ON leakage
current		 VNC or VNO = Open,
VCOM = 0.5 V,
or
VNC or VNO = Open,
VCOM = 2.2 V, 		Switch ON,
See Figure 16		 25°C 2.7 V –10 2 10 nA
Full –20 20
DIGITAL CONTROL INPUTS (IN1, IN2)(2)
VIH Input logic high Full 1.8 5.5 V
VIL Input logic low Full 0 0.6 V
IIH, IIL Input leakage
current		 VIN = 5.5 V or 0 25°C 2.7 V –2 2 nA
Full –20 20
DYNAMIC
tON Turnon time VCOM = VCC,
RL = 50 Ω,		 CL = 35 pF,
See Figure 18		 25°C 2.5 V 5 15 28 ns
Full 2.3 V to
2.7 V		 5 32
tOFF Turnoff time VCOM = VCC,
RL = 50 Ω,		 CL = 35 pF,
See Figure 18		 25°C 2.5 V 2 6 9 ns
Full 2.3 V to
2.7 V		 2 10
tBBM Break-before-make time VNC = VNO = VCC,
RL = 50 Ω,		 CL = 35 pF,
See Figure 19		 25°C 2.5 V 1 10 27 ns
Full 2.3 V to
2.7 V		 1 30
QC Charge
injection		 VGEN = 0,
RGEN = 0,		 CL = 1 nF,
See Figure 23		 25°C 2.5 V –3 pC
CNC(OFF), CNO(OFF) NC, NO
OFF
capacitance		 VNC or VNO = VCC or GND,
Switch OFF,		 See Figure 17 25°C 2.5 V 18.5 pF
CNC(ON), CNO(ON) NC, NO
ON
capacitance		 VNC or VNO = VCC or GND,
Switch ON,		 See Figure 17 25°C 2.5 V 56.5 pF
CCOM(ON) COM
ON
capacitance		 VCOM = VCC or GND,
Switch ON,		 See Figure 17 25°C 2.5 V 56.5 pF
CI Digital input
capacitance		 VIN = VCC or GND, See Figure 17 25°C 2.5 V 2 pF
BW Bandwidth RL = 50 Ω,
Switch ON,		 See Figure 20 25°C 2.5 V 100 MHz
OISO OFF isolation RL = 50 Ω,
f = 1 MHz,		 Switch OFF,
See Figure 21		 25°C 2.5 V –64 dB
XTALK Crosstalk RL = 50 Ω,
f = 1 MHz,		 Switch ON,
See Figure 22		 25°C 2.5 V –64 dB
THD Total harmonic distortion RL = 600 Ω,
CL = 50 pF,		 f = 20 Hz to 20 kHz,
See Figure 24		 25°C 2.5 V 0.02%
SUPPLY
ICC Positive supply
current		 VIN = VCC or GND, Switch ON or OFF 25°C 2.7 V 10 25 nA
Full 100
(1) The algebraic convention, whereby the most negative value is a minimum and the most positive value is a maximum
(2) All unused digital inputs of the device must be held at VCC or GND to ensure proper device operation. Refer to the TI application report, Implications of Slow or Floating CMOS Inputs,SCBA004.

6.8 Electrical Characteristics for 1.8-V Supply

VCC = 1.65 V to 1.95 V, TA = –40°C to 85°C (unless otherwise noted)(1)
PARAMETER TEST CONDITIONS TA VCC MIN TYP MAX UNIT
ANALOG SWITCH
VCOM, VNO, VNC Analog signal
range		 0 VCC V
Rpeak Peak ON
resistance		 0 ≤ (VNO or VNC) ≤ VCC,
ICOM = –2 mA,		 Switch ON,
See Figure 14		 25°C 1.65 V 5 Ω
Full 15
Ron ON-state
resistance		 VNO or VNC = 1.5 V,
ICOM = –2 mA,		 Switch ON,
See Figure 14		 25°C 1.65 V 2 2.5 Ω
Full 3.5
ΔRon ON-state
resistance
match
between
channels		 VNO or VNC = 0.6 V, 1.5 V,
ICOM = –2 mA,		 Switch ON,
See Figure 14		 25°C 1.65 V 0.15 0.4 Ω
Full 0.4
Ron(flat) ON-state
resistance
flatness		 0 ≤ (VNO or VNC) ≤ VCC,
ICOM = –2 mA,		 Switch ON,
See Figure 14		 25°C 1.65 V 5 Ω
VNO or VNC = 0.6 V, 1.5 V,
ICOM = –2 mA,		 Switch ON,
See Figure 14		 25°C 4.5
Full
INO(OFF),
INC(OFF)		 NC, NO
OFF leakage
current		 VNC or VNO = 0.3 V,
VCOM = 0.3 V to 1.65 V,
or
VNC or VNO = 1.65 V,
VCOM = 0.3 V to 1.65 V		 Switch OFF,
See Figure 15		 25°C 1.65 V –20 2 20 nA
Full –50 50
INC(PWROFF),
INO(PWROFF)		 VNC or VNO = 0 to
1.95 V,
VCOM = 1.95 V to 0,		 Switch OFF,
See Figure 15		 25°C 0 V –1 0.1 1 μA
Full –5 5
INO(ON),
INC(ON)		 NC, NO
ON leakage
current		 VNC or VNO = 0.3 V,
VCOM = Open,
or
VNC or VNO = 1.65 V,
VCOM = Open,		 Switch ON,
See Figure 16		 25°C 1.95 V –5 2 5 nA
Full –20 20
ICOM(PWROFF) COM
OFF leakage
current		 VNC or VNO = 1.95 V to 0,
VCOM = 0 to 1.95 V,		 Switch OFF,
See Figure 15		 25°C 0 V –1 0.1 1 μA
Full –5 5
ICOM(ON) COM
ON leakage
current		 VNC or VNO = Open,
VCOM = 0.3 V,
or
VNC or VNO = Open,
VCOM = 1.65 V, 		Switch ON,
See Figure 16		 25°C 1.95 V –10 2 10 nA
Full –20 20
DIGITAL CONTROL INPUTS (IN1, IN2)
VIH Input logic high Full 1.5 5.5 V
VIL Input logic low Full 0 0.6 V
IIH, IIL Input leakage
current		 VIN = 5.5 V or 0 25°C 1.95 V –2 2 nA
Full –20 20
DYNAMIC
tON Turnon time VCOM = VCC,
RL = 50 Ω,		 CL = 35 pF,
See Figure 18		 25°C 1.8 V 10 27.5 48.5 ns
Full 1.65 V to
1.95 V		 10 55
tOFF Turnoff time VCOM = VCC,
RL = 50 Ω,		 CL = 35 pF,
See Figure 18		 25°C 1.8 V 2 6.5 11 ns
Full 1.65 V to
1.95 V		 2 12
tBBM Break-before-make time VNC = VNO = VCC,
RL = 50 Ω,		 CL = 35 pF,
See Figure 19		 25°C 1.8 V 1 18 50 ns
Full 1.65 V to
1.95 V		 1 55
QC Charge
injection		 VGEN = 0,
RGEN = 0,		 CL = 1 nF,
See Figure 23		 25°C 1.8 V 2 pC
CNC(OFF), CNO(OFF) NC, NO
OFF
capacitance		 VNC or VNO = VCC or GND,
Switch OFF,		 See Figure 17 25°C 1.8 V 18.5 pF
CNC(ON), CNO(ON) NC, NO
ON
capacitance		 VNC or VNO = VCC or GND,
Switch ON,		 See Figure 17 25°C 1.8 V 56.5 pF
CCOM(ON) COM
ON
capacitance		 VCOM = VCC or GND,
Switch ON,		 See Figure 17 25°C 1.8 V 56.5 pF
CI Digital input
capacitance		 VIN = VCC or GND, See Figure 17 25°C 1.8 V 2 pF
BW Bandwidth RL = 50 Ω,
Switch ON,		 See Figure 20 25°C 1.8 V 105 MHz
OISO OFF isolation RL = 50 Ω,
f = 1 MHz,		 Switch OFF,
See Figure 21		 25°C 1.8 V –64 dB
XTALK Crosstalk RL = 50 Ω,
f = 1 MHz,		 Switch ON,
See Figure 22		 25°C 1.8 V –64 dB
THD Total harmonic distortion RL = 600 Ω,
CL = 50 pF,		 f = 20 Hz to 20 kHz,
See Figure 24		 25°C 1.8 V 0.06%
SUPPLY
ICC Positive supply
current		 VIN = VCC or GND, Switch ON or OFF 25°C 1.95 V 10 25 nA
Full 50
(1) The algebraic convention, whereby the most negative value is a minimum and the most positive value is a maximum

6.9 Typical Characteristics

TS5A23159 gr1_cds201.gif
Figure 1. Ron vs VCOM
TS5A23159 grp3_cds201.gif
Figure 3. Ron vs VCOM (VCC = 5 V)
TS5A23159 grp5_cds201.gif
Figure 5. Leakage Current vs Temperature
(VCC = 5 V)
TS5A23159 grp7_cds201.gif
Figure 7. TON and TOFF vs Supply Voltage
TS5A23159 grp9_cds201.gif
Figure 9. Logic-Level Threshold vs VCC
TS5A23159 grp11_cds201.gif
Figure 11. Off Isolation vs Frequency
TS5A23159 typperf_fig13_cds201.gif
Figure 13. Power-Supply Current vs Temperature (VCC = 5 V)
TS5A23159 grp2_cds201.gif
Figure 2. Ron vs VCOM (VCC = 3.3 V)
TS5A23159 grp4_cds201.gif
Figure 4. Leakage Current vs Temperature
(VCC = 3.3 V)
TS5A23159 grp6_cds201.gif
Figure 6. Charge Injection (QC) vs VCOM
TS5A23159 grp8_cds201.gif
Figure 8. TON and TOFF vs Temperature (5-V Supply)
TS5A23159 grp10_cds201.gif
Figure 10. Bandwidth (VCC = 5 V)
TS5A23159 grp13_cds201.gif
Figure 12. Total Harmonic Distortion vs Frequency