Datasheet
Table Of Contents
- 1 Absolute maximum ratings and operating conditions
- 2 Electrical characteristics
- Table 3. Electrical characteristics at VCC = +5 V, VDD = 0 V, Vicm = VCC/2, Tamb = 25 °C, RL connected to VCC/2 (unless otherwise specified)
- Table 4. Electrical characteristics at VCC = +3.3 V, VDD = 0 V, Vicm = VCC/2, Tamb = 25 °C, RL connected to VCC/2 (unless otherwise specified)
- Table 5. Electrical characteristics at VCC = +2.7 V VDD = 0 V, Vicm = VCC/2, Tamb = 25 °C, RL connected to VCC/2 (unless otherwise specified)
- Figure 1. Input offset voltage distribution for Vicm£ VCC-1.2 V at T=25 °C
- Figure 2. Input offset voltage distribution vs. temperature for Vicm£ VCC-1.2 V
- Figure 3. Input offset voltage distribution vs. temperature for Vicm ³ VCC-0.8 V
- Figure 4. Input offset voltage distribution for Vicm £ VCC-1.2 V at T=25 °C after HTB
- Figure 5. Input offset voltage distribution for Vicm £ VCC-1.2 V at T=25 °C after THB
- Figure 6. Input offset voltage vs. input common mode voltage at T=25 °C
- Figure 7. Supply current vs. input common mode voltage in closed loop configuration at VCC=5 V
- Figure 8. Supply current vs. supply voltage at Vicm=VCC/2
- Figure 9. Supply current vs. input common mode voltage in follower configuration at VCC=2.7 V
- Figure 10. Supply current vs. input common mode voltage in follower configuration at VCC=5 V
- Figure 11. Output current vs. supply voltage at Vicm=VCC/2
- Figure 12. Output current vs. output voltage at VCC=2.7 V
- Figure 13. Output current vs. output voltage at VCC=5 V
- Figure 14. Positive and negative slew rate vs. supply voltage
- Figure 15. Voltage gain and phase vs. frequency at VCC=5 V and Vicm=2.5 V at T=25 °C
- Figure 16. Voltage gain and phase vs. frequency at VCC=5 V and Vicm=2.5 V at T=-40 °C
- Figure 17. Voltage gain and phase vs. frequency at VCC=5 V and Vicm=2.5 V at T=125 °C
- Figure 18. Closed loop gain in voltage follower configuration for different capacitive load at T=25 °C
- Figure 19. Gain margin according to the output load, at VCC=5 V and T=25 °C
- Figure 20. Phase margin according to the output load, at VCC=5 V and T=25 °C
- Figure 21. Gain margin vs. output current, at VCC=5 V and T=25 °C
- Figure 22. Phase margin vs. output current, at VCC=5 V and T=25 °C
- Figure 23. Phase and gain margins vs capacitive load at = 25 °C
- Figure 24. Distortion + noise vs. output voltage
- Figure 25. Distortion + noise vs. frequency
- Figure 26. Noise vs. frequency
- 3 Application note
- 4 Package information
- 5 Ordering information
- 6 Revision history
DocID10958 Rev 6 5/20
TS507 Electrical characteristics
I
out
I
sink
V
out
= V
CC,
V
id
=-1 V, T=25 °C
TS507C full temperature range
TS507I full temperature range
74
60
53
104
mAI
source
V
out
= V
DD
, V
id
=1 V, T=25 °C
TS507C full temperature range
TS507I full temperature range
90
77
70
128
I
CC
Supply current (per operator)
(2)
No load, V
out
=V
CC
/2,
V
icm
=0 to 5 V, T=25 °C
Full temperature range
0.85 1.15
1.25
Dynamic performance
GBP Gain bandwidth product
R
L
= 2 kΩ, C
L
= 100 pF,
f = 100 kHz
1.9 MHz
φ
m
Phase margin
R
L
= 2 kΩ, C
L
=100 pF
45 Degrees
G
m
Gain margin 10 dB
SR Slew rate
R
L
= 2 kΩ, C
L
=100 pF,
V
out
= 1.25 V to 3.75 V,
10% to 90%
0.6 V/µs
e
N
Equivalent input noise voltage f = 1 kHz 12 nV/√ Hz
i
N
Equivalent input noise current f = 10 kHz 1.2 pA/√ Hz
THD+e
N
THD + noise
f=1 kHz, G=1, R
L
=2 kΩ,
V
icm
=2 V, V
out
=3.5 V
pp
0.0003 %
1. All parameter limits at temperatures different from 25 ° C are guaranteed by correlation.
2. Measurements made at 4 V
icm
values: V
icm
=0 V, V
icm
=3.8 V, V
icm
=4.2 V, V
icm
=5 V.
Table 3. Electrical characteristics at V
CC
= +5 V, V
DD
= 0 V, V
icm
= V
CC
/2, T
amb
= 25 °C,
R
L
connected to V
CC
/2 (unless otherwise specified)
(1)
(continued)
Symbol Parameter Conditions Min. Typ. Max. Unit