3
LTC1967
1967f
The ● denotes specifications which apply over the full operating
temperature range, otherwise specifications are T
A
= 25°C. V
+
= 5V, V
OUTRTN
= 2.5V, C
AVE
= 10µF, V
IN
= 200mV
RMS
, V
ENABLE
= 0.5V
unless otherwise noted.
ELECTRICAL CHARACTERISTICS
Note 1: Absolute Maximum Ratings are those values beyond which the life
of a device may be impaired.
Note 2: The inputs (IN1, IN2) are protected by shunt diodes to GND and
V
+
. If the inputs are driven beyond the rails, the current should be limited
to less than 10mA.
Note 3: The LTC1967 output (V
OUT
) is high impedance and can be
overdriven, either sinking or sourcing current, to the limits stated.
Note 4: The LTC1967C/LTC1967I are guaranteed functional over the
operating temperature range of –40°C to 85°C.
Note 5: The LTC1967C is guaranteed to meet specified performance from
0°C to 70°C. The LTC1967C is designed, characterized and expected to
meet specified performance from –40°C to 85°C but is not tested nor QA
sampled at these temperatures. The LTC1967I is guaranteed to meet
specified performance from –40°C to 85°C.
Note 6: High speed automatic testing cannot be performed with
C
AVE
= 10µF. The LTC1967 is 100% tested with C
AVE
= 47nF. Correlation
tests have shown that the performance limits can be guaranteed with the
additional testing being performed to guarantee proper operation of all the
internal circuitry.
Note 7: High speed automatic testing cannot be performed with 60Hz
inputs. The LTC1967 is 100% tested with DC and 10kHz input signals.
Measurements with DC inputs from 50mV to 350mV are used to calculate
the four parameters: G
ERR
, V
OOS
, V
IOS
and linearity error. Correlation tests
have shown that the performance limits can be guaranteed with the
additional testing being performed to guarantee proper operation of all
internal circuitry.
Note 8: The LTC1967 is inherently very linear. Unlike older log/antilog
circuits, its behavior is the same with DC and AC inputs, and DC inputs are
used for high speed testing.
Note 9: The power supply rejections of the LTC1967 are measured with
DC inputs from 50mV to 350mV. The change in accuracy from V
+
= 4.5V
to V
+
= 5.5V is divided by 1V.
Note 10: Previous generation RMS-to-DC converters required nonlinear
input stages as well as a nonlinear core. Some parts specify a “DC reversal
error,” combining the effects of input nonlinearity and input offset voltage.
The LTC1967 behavior is simpler to characterize and the input offset
voltage is the only significant source of “DC reversal error.”
Note 11: Guaranteed by design.
Note 12: The LTC1967 is a switched capacitor device and the input/output
impedance is an average impedance over many clock cycles. The input
impedance will not necessarily lead to an attenuation of the input signal
measured. Refer to the Applications Information section titled “Input
Impedance” for more information.
SYMBOL PARAMETER CONDITIONS MIN TYP MAX UNITS
Output Characteristics
OVR Output Voltage Range ● 0V
+
V
Z
OUT
Output Impedance (Note 12) ● 40 50 65 kΩ
CMRRO Output Common Mode Rejection (Note 13) ● 50 250 µV/V
V
OMAX
Maximum Differential Output Swing Accuracy = 1%, DC Input (Note 14) 1.0 1.05 V
● 0.9 V
PSRRO Power Supply Rejection (Note 9) ● 250 1000 µV/V
Frequency Response
f
1P
0.1% Additional Gain Error (Note 15) 40 kHz
f
–3dB
±3dB Frequency (Note 15) 4 MHz
Power Supplies
V
+
Supply Voltage ● 4.5 5.5 V
I
S
Supply Current IN1 = 20mV, IN2 = 0V ● 320 390 µA
IN1 = 200mV, IN2 = 0V 340 µA
Shutdown Characteristics
I
SS
Supply Current V
ENABLE
= 4.5V ● 0.1 10 µA
I
IH
ENABLE Pin Current High V
ENABLE
= 4.5V ● –1 –0.1 µA
I
IL
ENABLE Pin Current Low V
ENABLE
= 0.5V ● –3 –0.5 –0.1 µA
V
TH
ENABLE Threshold Voltage 2.1 V
V
HYS
ENABLE Threshold Hysteresis 0.1 V
