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-- All rights reserved.
-- This file is part of VESTs (Vhdl tESTs).
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-- package under the terms of the "GNU GENERAL PUBLIC LICENSE" version 2,
-- June 1991. A copy of this license agreement can be found in the file
-- "COPYING", distributed with this archive.
-- You should have received a copy of the GNU General Public License
-- along with VESTs; if not, write to the Free Software Foundation,
-- Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
-- ---------------------------------------------------------------------
--
-- $Id: test143.ams,v 1.1 2002-03-27 22:11:18 paw Exp $
-- $Revision: 1.1 $
--
-- ---------------------------------------------------------------------
-------------------------------------------------------------------------
-- SIERRA REGRESSION TESTING MODEL
-- Develooped at:
-- Distriburted Processing Laboratory
-- University of cincinnati
-- Cincinnati
-------------------------------------------------------------------------
-- File : test143.ams
-- Author(s) : Geeta Balarkishnan(gbalakri@ececs.uc.edu)
-- Created : May 2001
------------------------------------------------------------------------
-- Description :
------------------------------------------------------------------------
-- the test checks for the correctness of the concurrent signal
-- assignment. it accepts sine wave as input and the architecture has a
-- concurrent signal assignment statement that assigns either a 1 or 0
-- depending on the condition.
------------------------------------------------------------------------
PACKAGE electricalSystem IS
NATURE electrical IS real ACROSS real THROUGH;
FUNCTION SIN(X : real) RETURN real;
FUNCTION EXP(X : real) RETURN real;
FUNCTION SQRT(X : real) RETURN real;
FUNCTION POW(X,Y : real) RETURN real;
subtype voltage is real;
subtype current is real;
END PACKAGE electricalSystem;
use work.electricalSystem.all;
entity AnaComparator is
generic( Vth: voltage := 0.0 -- [V] comparator threshold level
);
port( terminal P_T: electrical;
signal Out_T: out BIT
);
end entity AnaComparator;
architecture Behavior of AnaComparator is
quantity DeltaV across P_T to electrical'reference; -- differential input voltage
begin
e1: DeltaV== 5.0*sin(2.0*3.14159*10000.0*real(time'pos(now))*1.0e-15);
out_T <= '1' when DeltaV'above(0.0) -- trigger event when V+>V-
else '0' when not DeltaV'above(0.0); -- trigger event when V+<=Vt-
end architecture Behavior;