DEFINITIONS AND DESIGN NOTES:
ADDITIONAL DESIGN NOTES:
1. Initial Input Offset Voltage is the initial offset voltage of the
ALD1726Eoperationalamplifierwhenshippedfrom thefactory.
The device has been pre-programmed and tested for program-
mability.
A. The ALD1726E is internally compensated for unity gain
stability using a novel scheme which produces a single pole role
off in the gain characteristics while providing more than 60
degrees of phase margin at unity gain frequency. A unity gain
buffer using the ALD1726E will typically drive 25pF of external
load capacitance.
2. Offset Voltage Program Range is the range of adjustment of
user specified target offset voltage. This is typically an adjust-
ment in either the positive or the negative direction of the input
offsetvoltagefromaninitialinput offsetvoltage. Theinputoffset
programming pins, VE1 or VE2, change the input offset voltage
in the negative or positive direction, respectively. User specified
target offset voltage can be any offset voltage within this pro-
gramming range.
B.TheALD1726Ehascomplementaryp-channelandn-channel
input differential stages connected in parallel to accomplish rail-
to-rail input common mode voltage range. The switching point
betweenthetwodifferentialstagesis1.5Vbelowpositivesupply
voltage. For applications such as inverting amplifiers or non-
invertingamplifierswithagainlargerthan2.5(5Voperation),the
common mode voltage does not make excursions below this
switching point. However, this switching does take place if the
operational amplifier is connected as a rail-to-rail unity gain
buffer and the design must allow for input offset voltage varia-
tions.
3. Programmed Input Offset Voltage Error is the final offset
voltage error after programming when the Input Offset Voltage
is at target Offset Voltage. This parameter is sample tested.
4. Total Input Offset Voltage is the same as Programmed Input
Offset Voltage, corrected for system offset voltage error. Usu-
ally this is an all inclusive system offset voltage, which also
includes offset voltage contributions from input offset voltage,
C. The output stage consists of class AB complementary output
drivers. The oscillation resistant feature, combined with the rail-
to-rail input and output feature, makes the ALD1726E an effec-
tive analog signal buffer for high source impedance sensors,
transducers, and other circuit networks.
PSRR, CMRR, TCV
and noise. It can also include errors
OS
introduced by external components, at a system level. Pro-
grammed Input Offset Voltage and Total Input Offset Voltage is
not necessarily zero offset voltage, but an offset voltage set to
compensate for other system errors as well. This parameter is
sample tested.
D. The ALD1726E has static discharge protection. However,
caremustbeexercisedwhenhandlingthedevicetoavoidstrong
static fields that may degrade a diode junction, causing in-
creased input leakage currents. The user is advised to power up
the circuit before, or simultaneously with, any input voltages
applied and to limit input voltages not to exceed 0.3V of the
power supply voltage levels.
5. The Input Offset and Bias Currents are essentially input
protection diode reverse bias leakage currents. This low input
bias current assures that the analog signal from the source will
not be distorted by it. For applications where source impedance
is very high, it may be necessary to limit noise and hum pickup
through proper shielding.
E. VE1 and VE2 are high impedance terminals, as the internal
biascurrentsaresetverylowtoafewmicroamperestoconserve
power. For some applications, these terminals may need to be
shielded from external noise coupling sources. For example,
digital signals running nearby may cause unwanted offset volt-
age fluctuations. Care during the printed circuit board layout, to
place ground traces around these pins and to isolate them from
digital lines, will generally eliminate such coupling effects. In
addition, optional decoupling capacitors of 1000pF or greater
value can be added to VE1 and VE2 terminals.
6. Input Voltage Range is determined by two parallel comple-
mentary input stages that are summed internally, each stage
having a separate input offset voltage. While Total Input Offset
Voltage can be trimmed to a desired target value, it is essential
to note that this trimming occurs at only one user selected input
bias voltage. Depending on the selected input bias voltage
relative to the power supply voltages, offset voltage trimming
may affect one or both input stages. For the ALD1726E, the
switching point between the two stages occurs at approximately
1.5V below the positive supply voltage.
F.TheALD1726Eisdesignedforuseinlowvoltage,micropower
circuits. The maximum operating voltage during normal opera-
tion should remain below 10V at all times. Care should be taken
toinsurethattheapplicationinwhichthedeviceisuseddoesnot
experience any positive or negative transient voltages that will
cause any of the terminal voltages to exceed this limit.
7. Input Offset Voltage Drift is the average change in Total Input
Offset Voltage as a function of ambient temperature. This
parameter is sample tested.
8. Initial PSRR and initial CMRR specifications are provided as
reference information. After programming, error contribution to
theoffsetvoltagefromPSRR andCMRRissettozerounderthe
specific power supply and common mode conditions, and be-
comes part of the Programmed Input Offset Voltage Error.
G. All inputs or unused pins except VE1 and VE2 pins should be
connected to a supply voltage such as Ground so that they do
not become floating pins, since input impedance at these pins is
veryhigh. Ifanyofthesepinsareleftundefined, theymaycause
unwanted oscillation or intermittent excessive current drain. As
thesedevicesarebuiltwithCMOStechnology,normaloperating
and storage temperature limits, ESD and latchup handling
precautions pertaining to CMOS device handling should be
observed.
9. Average Long Term Input Offset Voltage Stability is based on
input offset voltage shift through operating life test at 125°C
extrapolated to TA = 25°C, assuming activation energy of 1.0eV.
This parameter is sample tested.
ALD1726E
Advanced Linear Devices
6 of 13
ALD [ ADVANCED LINEAR DEVICES ]
