Electrical Characteristics
TS615
Table 4. VCC = ±2.5V, Rfb=910Ω,Tamb = 25°C (unless otherwise specified)
Symbol
Parameter
Test Condition
Min.
Noise and distortion
eN
iNp
iNn
HD2
Equivalent Input Noise Voltage
Equivalent Input Noise Current (+)
Equivalent Input Noise Current (-)
2nd Harmonic distortion
(differential configuration)
3rd Harmonic distortion
HD3 (differential configuration)
2nd Order Intermodulation Product
(differential configuration)
IM2
3rd Order Intermodulation Product
(differential configuration)
IM3
F = 100kHz
F = 100kHz
F = 100kHz
Vout = 6Vp-p, AV = 12dB
F= 110kHz, RL = 20Ω diff.
Vout = 6Vp-p, AV = 12dB
F= 110kHz, RL = 20Ω diff.
F1= 100kHz, F2 = 110kHz
Vout = 6Vp-p, AV = 12dB
RL = 20Ω diff.
F1= 370kHz, F2 = 400kHz
Vout = 6Vp-p, AV = 12dB
RL = 20Ω diff.
F1 = 100kHz, F2 = 110kHz
Vout = 6Vp-p, AV = 12dB
RL = 20Ω diff.
F1 = 370kHz, F2 = 400kHz
Vout = 6Vp-p, AV = 12dB
RL = 20Ω diff.
Typ.
2.5
15
21
-97
-98
-86
-88
-90
-85
Max. Unit
nV/√Hz
pA/√Hz
pA/√Hz
dBc
dBc
dBc
dBc
Power-down mode features
The power-down command is a MOS input featuring a high input impedance.
Table 5. VCC = ±2.5V, 5V, ±6V or 12V, Tamb = 25°C
Symbol
Parameter
Min.
Vpdw
Iccpdw
Rpdw
Cpdw
Pin (6) Threshold Voltage for Power Down Mode
Low Level
High Level
Power Down Mode Total Current Consumption@ VCC=5V
Power Down Mode Total Current Consumption@ VCC=12V
Power Down Mode Output Impedance @ VCC=5V
Power Down Mode Output Impedance @ VCC=12V
Power Down Mode Output Capacitance
-VCC
-VCC+2
Typ.
Max.
Unit
-VCC+0.8 V
+VCC
69
80
µA
148
180
µA
19
23
Ω
15.3
19
Ω
63
pF
Power down control
Vpdw=Low Level
Vpdw=High Level
Circuit status
Active
Standby
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