ALD1721EDA ALD [Advanced Linear Devices], ALD1721EDA Datasheet - Page 2

ALD1721EDA

Manufacturer Part Number

ALD1721EDA

Description

Manufacturer

ALD [Advanced Linear Devices]

Datasheet

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FUNCTIONAL DESCRIPTION

The ALD1721E uses EPADs as in-circuit elements for trim-

ming of offset voltage bias characteristics. Each ALD1721E

has a pair of EPAD-based circuits connected such that one

circuit is used to adjust V

of the EPAD devices is a monotonically adjustable program-

mable device, the V

many times in both directions. Once programmed, the set

power is removed.

The ALD1721E is pre-programmed at the factory under

standard operating conditions for minimum equivalent input

offset voltage.

program range, which is ideal for applications that require

electrical offset voltage programming.

The ALD1721E is an operational amplifier that can be

trimmed with user application-specific programming or in-

system programming conditions. User application-specific

circuit programming refers to the situation where the Total

Input Offset Voltage of the ALD1721E can be trimmed with

the actual intended operating conditions.

For example, an application circuit may have +6V and -2.5V

power supplies, and the operational amplifier input is biased

at +0.7V, and an average operating temperature at 55 C.

The circuit can be wired up to these conditions within an

environmental chamber with the ALD1721E inserted into a

test socket connected to this circuit while it is being electri-

cally trimmed. Any error in V

can be automatically zeroed out. The Total V

limited only by the adjustable range and the stability of V

and the input noise voltage of the operational amplifier.

Therefore, this Total V

traditionally specified; plus the V

PSRR, CMRR, TCV

error term (V

The V

external components can be large for operational amplifiers

without trimming. Therefore the ALD1721E with EPAD trim-

ming is able to provide much improved system performance

by reducing these other sources of error to provide signifi-

cantly reduced V

In-System Programming refers to the condition where the

EPAD adjustment is made after the ALD1721E has been

inserted into a circuit board. In this case, the circuit design

must provide for the ALD1721E to operate in normal mode

and in programming mode. One of the benefits of in-system

programming is that not only is the ALD1721E offset voltage

from operating bias conditions accounted for, any residual

errors introduced by other circuit components, such as resis-

tor or sensor induced voltage errors, can also be corrected.

In this way, the “in-system” circuit output can be adjusted to

a desired level, eliminating the need for another trimming

function.

ALD1721E

levels are stored permanently, even when the device

contribution due to PSRR, CMRR, TCV

OST

) is approximately 35 V for the ALD1721E.

OST.

It also has a guaranteed offset voltage

, and noise. Typically this total V

of the ALD1721E can be adjusted

error now includes V

in the other direction. While each

in one direction and the other

due to these bias conditions

error contributions from

Advanced Linear Devices

error is now

as V

and

USER PROGRAMMABLE V

Each ALD1721E has two pins named VE1 and VE2 which are

internally connected to an internal offset bias circuit. VE1/

VE2 have initial typical values of 1.2V/1.7V. The voltage on

these pins can be programmed using the ALD E100 EPAD

Programmer and the appropriate Adapter Module. The useful

programming range of VE1 and VE2 is 1.2V to 3.0V.

VE1 and VE2 pins are programming pins, used during

programming mode to inject charge into the internal EPADs.

Increasing voltage on VE1 decreases the offset voltage

whereas increasing voltage on VE2 increases the offset

voltage of the operational amplifier. The injected charge is

permanently stored and determines the offset voltage of the

operational amplifier. After programming, VE1 and VE2

terminals must be left open to settle on a voltage determined

by internal bias currents.

During programming, the voltages on VE1 or VE2 are in-

creased incrementally to set the offset voltage of the opera-

tional amplifier to the desired Vos. Note that desired Vos can

be any value within the offset voltage programmable ranges,

and can be zero, a positive value or a negative value. This

a later time, provided that the useful VE1 or VE2 program-

ming voltage range has not been exceeded. VE1 or VE2 pins

can also serve as capacitively coupled input pins.

Internally, VE1 and VE2 are programmed and connected

differentially. Temperature drift effects between the two

internal offset bias circuits cancel each other and introduce

less net temperature drift coefficient change than offset

voltage trimming techniques such as offset adjustment with

an external trimmer potentiometer.

While programming, V+, VE1 and VE2 pins may be alter-

nately pulsed with 12V (approximately) pulses generated by

the EPAD Programmer. In-system programming requires

the ALD1721E application circuit to accommodate these

programming pulses. This can be accomplished by adding

resistors at certain appropriate circuit nodes. For more

information, see Application Note AN1700.

value can also be reprogrammed to a different value at

FEATURE

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ALD1721EDA ALD [Advanced Linear Devices], ALD1721EDA Datasheet - Page 2

ALD1721EDA

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