SLOS922A September 2015 – December 2015 TLV27L2-Q1
PRODUCTION DATA.
MIN | MAX | UNIT | ||
---|---|---|---|---|
VS | Supply voltage | 16.5 | V | |
VI | Input voltage(2) | VS | V | |
VID | Differential input voltage | VS | V | |
IO | Output current | 100 | mA | |
Continuous total power dissipation | See the Thermal Information Table | |||
TJ | Maximum junction temperature | 150 | °C | |
TA | Operating free-air temperature | –40 | 125 | °C |
Lead temperature 1,6 mm (1/16 inch) from case for 10 seconds | 300 | °C | ||
Tstg | Storage temperature | –65 | 125 | °C |
VALUE | UNIT | ||||
---|---|---|---|---|---|
V(ESD) | Electrostatic discharge | Human-body model (HBM), per AEC Q100-002(1) | ±2000 | V | |
Charged-device model (CDM), per AEC Q100-011 | ±1000 |
MIN | MAX | UNIT | |||
---|---|---|---|---|---|
VS | Supply voltage | Dual supply | ±1.35 | ±8 | V |
Single supply | 2.7 | 16 | |||
Input common-mode voltage | –0.2 | VS – 1.2 | V | ||
TA | Operating free-air temperature | –40 | 125 | °C |
THERMAL METRIC(1) | TLV27L2-Q1 | UNIT | |
---|---|---|---|
D (SOIC) | |||
8 PINS | |||
RθJA | Junction-to-ambient thermal resistance | 122.2 | °C/W |
RθJC(top) | Junction-to-case (top) thermal resistance | 70.5 | °C/W |
RθJB | Junction-to-board thermal resistance | 62.5 | °C/W |
ψJT | Junction-to-top characterization parameter | 22.3 | °C/W |
ψJB | Junction-to-board characterization parameter | 62.0 | °C/W |
RθJC(bot) | Junction-to-case (bottom) thermal resistance | N/A | °C/W |
PARAMETER | TEST CONDITIONS | TA(1) | MIN | TYP | MAX | UNIT | |||
---|---|---|---|---|---|---|---|---|---|
DC PERFORMANCE | |||||||||
VIO | Input offset voltage | VIC = VS / 2, VO = VS / 2, RL = 100 kΩ, RS = 50 Ω |
25°C | 0.5 | 5 | mV | |||
Full range | 7 | ||||||||
αVIO | Offset voltage drift | VIC = VS / 2, VO = VS / 2, RL = 100 kΩ, RS = 50 Ω |
25°C | 1.1 | µV/°C | ||||
CMRR | Common-mode rejection ratio | VIC = 0 V to VS – 1.2 V, RS = 50 Ω | 25°C | 71 | 86 | dB | |||
Full range | 70 | ||||||||
AVD | Large-signal differential voltage amplification | VO(PP) = VS / 2, RL = 100 kΩ, |
VS = 2.7 V, 5 V | 25°C | 80 | 100 | dB | ||
Full range | 77 | ||||||||
VS = ±5 V | 25°C | 77 | 82 | ||||||
Full range | 74 | ||||||||
INPUT CHARACTERISTICS | |||||||||
IIO | Input offset current | VIC = VS / 2, VO = VS / 2, RL = 100 kΩ, RS = 50 Ω |
≤ 25°C | 1 | 60 | pA | |||
≤ 70°C | 100 | ||||||||
≤ 125°C | 1000 | ||||||||
IIB | Input bias current | VIC = VS / 2, VO = VS / 2, RL = 100 kΩ, RS = 50 Ω |
≤ 25°C | 1 | 60 | pA | |||
≤ 70°C | 200 | ||||||||
≤ 125°C | 1000 | ||||||||
ri(d) | Differential input resistance | ≤ 25°C | 1000 | GΩ | |||||
CIC | Common-mode input capacitance | f = 1 kHz | ≤ 25°C | 8 | pF | ||||
POWER SUPPLY | |||||||||
IQ | Quiescent current (per channel) | VO = VS/2 | 25°C | 7 | 11 | µA | |||
Full range | 16 | ||||||||
PSRR | Power supply rejection ratio (ΔVS/ΔVIO) |
No load, VS = 2.7 V to 16 V, VIC = VS / 2 V |
25°C | 74 | 82 | dB | |||
Full range | 70 | ||||||||
OUTPUT CHARACTERISTICS | |||||||||
VO | Output voltage swing from rail | VIC = VS / 2, IOL = 100 µA |
VS = 2.7 V | 25°C | 160 | 200 | mV | ||
Full range | 220 | ||||||||
VS = 5 V | 25°C | 85 | 120 | ||||||
Full range | 200 | ||||||||
VS = ±5 V | 25°C | 50 | 120 | ||||||
Full range | 150 | ||||||||
VIC = VS / 2, IOL = 500 µA |
VS = 5 V | 25°C | 420 | 800 | |||||
Full range | 900 | ||||||||
VS = ±5 V | 25°C | 200 | 400 | ||||||
Full range | 500 | ||||||||
IO | Output current | VO = 0.5 V from rail, VS = 2.7 V | 25°C | 400 | µA | ||||
DYNAMIC PERFORMANCE | |||||||||
GBP | Gain bandwidth product | RL = 100 kΩ, CL = 10 pF, f = 1 kHz | 25°C | 160 | kHz | ||||
SR | Slew rate at unity gain | VO(pp) = 1 V, RL = 100 kΩ, CL = 50 pF |
25°C | 0.06 | V/µs | ||||
–40°C | 0.05 | ||||||||
125°C | 0.8 | ||||||||
φM | Phase margin | RL = 100 kΩ, CL = 50 pF | 25°C | 62 | ° | ||||
ts | Settling time (0.1%) | V(STEP)pp = 1 V, AV = –1, rise | 25°C | 62 | µs | ||||
CL = 50 pF, RL = 100 kΩ, fall | 44 | ||||||||
NOISE AND DISTORTION PERFORMANCE | |||||||||
Vn | Equivalent input noise voltage | f = 1 kHz | 25°C | 89 | nV/√Hz | ||||
In | Equivalent input noise current | f = 1 kHz | 25°C | 0.6 | nV/√Hz |
FIGURE | ||
---|---|---|
Input offset voltage (VIO) | vs Common-mode input voltage (VIC) | Figure 1, Figure 2, Figure 3 |
Input bias and offset current (IIB and IIO) | vs Free-air temperature (TA) | Figure 4 |
High-level output voltage (VOH) | vs High-level output current (IOH) | Figure 5, Figure 7, Figure 9 |
Low-level output voltage (VOL) | vs Low-level output current (IOL) | Figure 6, Figure 8, Figure 10 |
Quiescent current (IQ) | vs Supply voltage (VS) | Figure 11 |
vs Free-air temperature (TA) | Figure 12 | |
Supply voltage and supply current ramp up | Figure 13 | |
Differential voltage gain and phase shift (AVD) | vs Frequency (f) | Figure 14 |
Gain-bandwidth product (GBP) | vs Free-air temperature (TA) | Figure 15 |
Phase margin (φm) | vs Load capacitance (CL) | Figure 16 |
Common-mode rejection ratio (CMRR) | vs Frequency (f) | Figure 17 |
Power supply rejection ratio (PSRR) | vs Frequency (f) | Figure 18 |
Input referred noise voltage | vs Frequency (f) | Figure 19 |
Slew rate (SR) | vs Free-air temperature (TA) | Figure 20 |
Peak-to-peak output voltage (VO(PP)) | vs Frequency (f) | Figure 21 |
Inverting small-signal response | Figure 22 | |
Inverting large-signal response | Figure 23 | |
Crosstalk | vs Frequency (f) | Figure 24 |
VS = 2.7 V | TA = 25°C |
VS = 5 V | TA = 25°C |
VS = ±5 VDC | TA = 25°C |
VS = 5 V |
VS = 2.7 V |
VS = 0 to 15 V | RL = 100 Ω | CL = 10 pF |
TA = 25°C |
VS = 5 V | TA = 25°C |
VS = 5 V | G = 2 | RF = 100 kΩ |
RL = 100 kΩ | CL = 10 pF | THD+N ≤ 5% |
VS = 5 V | G = –1 | VO = 100 mVPP |
RL = 100 kΩ | CL = 10 pF | f = 1 kHz |
VS = 5 V | VIC = 2.5 V | VO = 2.5 V |
VS = ±5 V |
VS = 5 V |
VS = 2.7 V |
VS = 5 V | RL = 100 Ω | CL = 10 pF |
TA = 25°C |
VS = 5 V | RL = 100 kΩ | TA = 25°C |
VS = ±2.5 V | TA = 25°C |
VS = 5 V | G = 1 | VO = 1 V |
RL = 100 kΩ | CL = 50 pF |
VS = 5 V | G = –1 | VO = 3 VPP |
RL = 100 kΩ | CL = 10 pF | f = 1 kHz |
VS = 5 V | G = –1 | TA = 25°C |
RL = 2 kΩ | CL = 10 pF | Channel 1 to 2 |