FEATURES

n Functionally compatible with the SA9105F with reduced

external components

n Performs bidirectional one, two or three phase power and

energy measurement

n Meets the IEC 521/1036 Specification requirements for

Class 1 AC Watt hour meters

sames

Three Phase Bidirectional Power/Energy
Metering IC with Instantaneous Pulse Output

SA2005F

1/10

SPEC-0042 (REV. 1)

03-07-00

n Operates over a wide temperature range
n Uses current transformers for current sensing
n Easily adaptable to different signal levels
n Precision voltage reference on chip
n Precision oscillator on chip.
n Protected against ESD

DESCRIPTION

The SAMES SA2005F is an enhancement of the SA9105F. A
precision oscillator and the loop capacitors are integrated on
chip.

The SAMES SA2005F three phase bidirectional power/energy
metering integrated circuit generates pulse rate outputs for
positive and negative energy directions. The frequency of the
pulses is proportional to the measured power consumption.
The SA2005F performs active power calculation.

The method of calculation takes the power factor into account.

Energy consumption is determined by integrating the power
measurement over time.

This innovate universal three phase power/energy metering
integrated circuit is ideally suited for applications such as
residential and industrial energy metering and control.

The SA2005F integrated circuit is available in 20 pin dual-in-
line plastic (DIP-20), and 20 pin small outline (SOIC-20)
package types.

Figure 1: Block Diagram

POWER

PULSE

RATE

REF

OSC

TIMING & CONTROL

INTEGRATE

AND

AVERAGE

DIR

TCLK

TEST

FOUT

PGM0 PGM1

VDD VSS

IVN1

IIN1
IIP1

VREF

GND

Dr-01570

IVN2

IIN2
IIP2

IVN3

IIN3
IIP3

sames

SA2005F

2/10

http://www.sames.co.za

ELECTRICAL CHARACTERISTICS

(V = 2.5V, V = -2.5V, over the temperature range -10癈 to +70癈 , unless otherwise specified.)

ABSOLUTE MAXIMUM RATINGS*

Supply Voltage

V -V

-0.3

6.0

Current on any pin

-150

+150

Storage Temperature

-40

+125

癈

STG

Operating Temperature

-40

+85

癈

*Stresses above those listed under "Absolute Maximum Ratings" may cause permanent damage to the device. This is a stress
rating only. Functional operation of the device at these or any other condition above those indicated in the operational sections of
this specification, is not implied. Exposure to Absolute Maximum Ratings for extended periods may affect device reliability.

Parameter

Symbol

Min

Max

Unit

Operating temp. Range

Supply Voltage

Supply Current

Nonlinearity of Power
Calculation

Current Sensor Inputs (Diffferential)

Input Current Range

Voltage Sensor Input (Asymmetrical)

Input Current Range

Pins FOUT, DIR
Output Low Voltage
Output High Voltage

Pulse Rate: FOUT

Pin PGM0, PGM1, TEST, TCLK
High Voltage
Low Voltage

Pin VREF
Ref. Current
Ref. Voltage

癈

礎

V
V

Hz
Hz

V
V

礎
V

V - V

-I

-25

4.5

-0.3

V -1

0
0

V -1

45
1.1

55
1.3

V +1

1160
3500

64
200

V +1

+25

+85

5.5

+0.3

1% - 100% of rated
power

Peak value

I = 5mA

I = -2mA

MODES 0, 1, 2
Specified linearity
Min and Max limits

MODE 3
Specified linearity
Min and Max Limits

With R = 24kW
connected to V

Referred to V

Output unloaded

Condition

Unit

Max

Typ

Min

Symbol

Parameter

3/10

sames

SA2005F

http://www.sames.co.za

Figure 2: Pin connections: Package: DIP-20, SOIC-20

DR-01571

IIP2

IVN2

GND

IIN2

IIN1

VREF

IVN3

IIP1

VSS

IIP3

IIN3

VDD

TEST

FOUT

IVN1

PGM1

PGM0

TCLK

DIR

Part Number

SA2005FPA

SA2005FSA

Package

DIP-20

SOIC-20

ORDERING INFORMATION

PIN DESCRIPTION

Analog Ground. The voltage to this pin should be mid-way between V and V .

Positive Supply voltage.

Negative Supply voltage.

The current into the A/D converter should be set at 14礎

at nominal mains

RMS

voltage. The voltage sense input saturates at an input current of �25礎 peak.

Inputs from current sensors. The shunt resistor voltage from each channel is
converted to a current of 16礎

at rated conditions. The current sense input

RMS

saturates at an input current of �25礎 peak.

This pin provides the connection for the reference current setting resistor.
A 24kW resistor connected to V sets the optimum operating condition.

Test inputs. For normal operation these pins must be connected to V .

Pulse rate output. The pulse frequency is proportional to the sum of the power
measured on all three phases. The pulse format also indicates the direction of
energy flow.

Direction output. This output indicates the direction of energy flow.

FOUT Pulse format Select. These inputs define the FOUT pulse width
and format.

GND

IVN1, IVN2, IVN3

IIN1, IIP1, IIN2, IIP2,

IIN3, IIP3

VREF

TCLK, TEST

FOUT

DIR

PGM0, PGM1

Designation

Description

PIN

17, 20, 3

19, 18, 2, 1,

5, 4

7, 10

12, 13

4/10

sames

SA2005F

Figure 3: Analog Input Internal Configuration

http://www.sames.co.za

FUNCTIONAL DESCRIPTION

The SAMES SA2005F is a CMOS mixed signal integrated
circuit, which performs three phase power/energy calculations
over a range of 1000:1, to an overall accuracy of better than
Class 1.

The SA2005F is functionally similar to the SA9105F. No
external loop capacitors are required and an precision
oscillator is integrated on chip.

The integrated circuit includes all the required functions for 3-
phase power and energy measurement such as oversampling
A/D converters for the voltage and current sense inputs, power
calculation and energy integration. Internal offsets are
eliminated through the use of cancellation procedures.

The SA2005F generates pulses with a frequency proportional
to the power measured. The pulse rate follows the
instantaneous power measured. The pulse frequency is
proportional to the total sum of the three phases.

POWER CALCULATION

In the application circuit (figure 5), the mains voltages from V1,
V2 and V3, are converted to currents and applied to the voltage
sense inputs IVP1, IVP2 and IVP3.

The current levels on the voltage sense inputs are derived from
the mains voltages (3 x 230VAC) being divided down to 14V
through voltage dividers. The resulting input currents into the
A/D converters are 14礎

through the resistors R8, R9 and

RMS

R10.

For the current sense inputs the voltage drop across the
current transformers terminating resistors are converted to
currents of 16礎

at rated conditions, by means of resistors

RMS

R1, R2 (Phase 1); R3, R4 (Phase 2) and R5, R6 (Phase 3). The
signals providing the current information are applied to the
current sensor inputs IIN1, IIP1, IIN2, IIP2 and IIN3, IIP3.

The output frequency of the SA2005F energy metering
integrated circuit at rated conditions is 64Hz on FOUT
(PGM0=0, PGM1=1).

One pulse (measured in Watt second) correspond to an energy
measured of 3 x I

x V

/ 64Hz.

RATED

For a more detailed description see the Input Signals section.

INPUT SIGNALS

Analog Input Configuration
The current and voltage sensor inputs are illustrated in figure 3.
These inputs are protected against electrostatic discharge

through clamping diodes, in conjunction with the amplifiers
input configuration. The feedback loops from the outputs of the
amplifiers A and A generate virtual shorts on the signal inputs.

I V

Exact duplications of the input currents are generated for the
analog processing circuitry.

Voltage Reference Connection (VREF)
A bias resistor of 24k provides an optimum bias conditions on
chip. Calibration of the SA2005F should be done on the
voltage inputs of the device as described in Typical
Applications.

Current Sense Inputs (IIN1, IIP1, IIN2, IIP2, IIN3, IIP3)
At rated current the resistor values should be selected for input
currents of 16礎

. Referring to figure 5, the resistors R1 and

RMS

R2 on current channel 1, resistors R3 and R4 on current
channel 2 and resistors R5 and R6 on current channel 3, define
the current level into the current sense inputs of the SA2005F.
The current sense inputs saturates at an input current of �25礎
peak. Resistors R25, R26 and R27 are the current transformer
termination resistors. The voltage drop across the termination
resistors should be at least 20mV at rated conditions. Values
for the current sense inputs are calculated as follows:

R = R = (I / 16礎

) x R / 2

RMS

R = R = (I / 16礎

) x R / 2

RMS

R = R = (I / 16礎

) x R / 2

RMS

Where:
I = Line current/CT-ratio

VOLTAGE
SENSOR
INPUT

IVP

DR-01288

CURRENT
SENSOR
INPUTS

IIP

IIN

VDD

GND

5/10

sames

SA2005F

http://www.sames.co.za

Voltage Sense Inputs (IVN1, IVN2, IVN3)
The current into the voltage sense inputs (virtual ground)
should be set to 14礎

at rated voltage conditions. The

RMS

individual mains voltages are divided down to 14V

per

RMS

phase. The resistors R8, R9 and R10 set the current for the
voltage sense inputs. The voltage sense inputs saturate at an
input current of �25礎 peak.

Pulse Programming Inputs (PGM0, PGM1)
The pulse programming inputs PGM1 and PGM0 define the
representation of energy measured by the device on FOUT.
The table below shows the difference between the various
modes.

DIR as a logic 1. The DIR pin may be used to drive a LED in
order to indicate reverse energy flow.

Frequency Output (FOUT)
The sum of the measured power, from the three phases
produce a pulse rate of 64Hz or 1160Hz (mode 3), at rated
conditions on FOUT. The format of the pulse output signal,
which provides power/energy and direction information is
shown in figure 4. Refer to Pulse Programming Inputs for pulse
widths.

The following equation may be used for calculating the output
frequency:

f = 11.16 x FOUTX x ((I x I )+(I x I )+(I x I )) / 3 x I

Where:
FOUTX = Nominal rated frequency (64Hz/1160Hz)
I , I , I = Input currents for current sensor inputs (16礎 at rated

line current)
I , I , I = Input currents for voltage sensor inputs (14礎 at

rated line voltage)
I = Reference current (typically 50礎)

An integrated anti-creep function ensures that no pulses are
generated at zero line currents.

ELECTROSTATIC DISCHARGE (ESD) PROTECTION

The SA2005F integrated circuit's inputs/outputs are protected
against ESD.

POWER CONSUMPTION

The overall power consumption rating of the SA2005F
integrated circuit is less than 50 mW with a 5V supply.

Figure 4: FOUT options

Note: Frequency of pulse rate in MODE 3 is 18 times higher than other modes

Mode PGM1 PGM0

Frequency

at rated

conditions

Forward

Pulse

Width

Reverse

Pulse

Width

64Hz

1160Hz

1.14ms

71祍

3.4ms

1.14ms

71祍

Test Inputs (TCLK, TEST)
The TEST and TCLK inputs are manufacturers test pins and
must be connected to VSS in a metering application.

OUTPUT SIGNALS

Direction Indication (DIRO)
The SA2005F indicates the measured energy flow direction on
pin DIR. A logic 0 on pin DIR indicates reverse energy flow.
Reverse energy flow is defined as the condition where the
voltage sense input and current sense input are out of phase
(greater than 90 degrees). Positive energy flow, when voltage
sense and current sense input are in phase, is indicated on pin

MODE 0
FOUT

MODE1
FOUT

MODE2
FOUT

MODE3
FOUT

DIR

DR-01582

协谢械泻褌褉芯薪薪褘泄泻芯屑锌芯薪械薪褌: SA2005

Document Outline

协谢械泻褌褉芯薪薪褘泄 泻芯屑锌芯薪械薪褌: SA2005

Document Outline

协谢械泻褌褉芯薪薪褘泄泻芯屑锌芯薪械薪褌: SA2005