Casio TE-4000F Cash Register User Manual


 
56
E
Advanced Operations
This chapter describes more sophisticated operations that you can use to suit the needs of your retail
environment.
Stock check
Each PLU has an actual stock totalizer that you can program with a minimum stock quantity. Then the register
checks actual stock quantities against the programmed minimum stock quantities. Stock operations are
performed only for PLUs (except scanning PLUs) programmed with minimum stock quantities.
Stock warnings
The cash register checks for negative values in actual stock quantities during the registration itself. After
registration is complete, it checks actual stock quantities against minimum stock quantities. The following
warning indicators are used to inform the operator of any problem.
Negative stock:
This indicates that the actual stock quantity is negative. You can also program the cash register to treat this
condition as an error. This warning does not appear when the actual stock quantity is zero.
Under minimum stock:
This indicates that the actual stock quantity is less than or equal to the minimum stock quantity. The cash
register can be programmed so that a buzzer sounds when the actual stock quantity is less than the minimum
stock quantity.
Notes
The stock check operation is also performed for PLUs programmed with minimum stock quantities that make
up set menus.
None of the warning indicators appear unless the cash register is specifically programmed for the stock check
operation.
Stock operations can be performed for registrations in the RF mode or those performed with <REFUND> (the
refund key).
An error correct, void, or cancel operation restores the original of items in stock value.
Clerk interrupt function
There are two types of clerk interrupt function, illustrated by PROCEDURE 1 and PROCEDURE 2 below.
In PROCEDURE 1, each clerk possesses a unique clerk interrupt buffer, and so the clerk interrupt function
gives each individual clerk the ability to perform an independent registration operation. In this case, each clerk
is individually linked to a unique clerk interrupt buffer.
In PROCEDURE 2, multiple clerks use the same clerk interrupt buffer, and so a single clerk interrupt
operation (clerk change during registration) can be performed any registration is in progress. In this case,
multiple clerks are linked to a single clerk interrupt buffer.
Note the following important points concerning the clerk interrupt function.
The register must be programmed to allow use of the clerk interrupt function.
To use the clerk interrupt function, a clerk interrupt buffer must first be allocated with the memory allocation
operation. Next the manager control operation (X1 mode) should be used to perform clerk assignment for the
clerk interrupt function. The clerk interrupt operation cannot be performed by clerks who are not linked to a
clerk interrupt buffer.
You cannot use the clerk interrupt function on a register set up to function as part of a check tracking system.
In the REG1, REG2, and RF modes, clerks can be change while a transaction is in progress, making it possible
for multiple clerks to simultaneously perform registrations using a single register.
For example, if clerk 1 is interrupted while registering a transaction, clerk 2 can use the same machine to
register a different transaction. Then clerk 1 can continue the original registration from the point where it was
interrupted.