Datasheet PM2002DP, PM9102AP Datasheet (SAMES)

Application Note:
Energy Meter Evaluation Module

PM2002DP

INTRODUCTION

This application note describes the functionality of the
SA2002D metering integrated circuit using the PM2002DP
evaluation module.

The SA2002 enables the meter manufacturer to build a meter
that measures the energy consumption, and records it to a
mechanical counter. Energy flow direction as well as energy
metering activity is indicated by means of LEDs. This
application note will focus on the practical use of the SA2002D,
more detailed information specific to the SA2002D can be
found in the applicable datasheet.

THE SA2002D PIN PROGRAMMABLE MONOCHIP
METER

Setting

6A / 220V

10A / 220V

20A / 220V

30A / 220V

40A / 220V

60A / 220V

80A / 220V

Table 1: A summary of the pin settings possible with the

SA2002D. Pin status 0 indicates connection to VSS and 1

Calibrated

LED imp/kWh

6400

6400

3200

3200

1600

1600

800

indicates connection to VDD.

Pin Status

R0 = 0, R1 = 0, R2 = 1

R0 = 0, R1 = 0, R2 = 0

R0 = 1, R1 = 0, R2 = 0

R0 = 1, R1 = 0, R2 = 1

R0 = 0, R1 = 1, R2 = 0

R0 = 0, R1 = 1, R2 = 1

R0 = 1, R1 = 1, R2 = 0

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CONNECTORS ON MODULE

The PM2002DP module connects directly to live and neutral
on SCK1. The module is referenced to live and should be kept
in mind when connecting test equipment to the module. The
current is measured by the shunt on the top of the PCB. The left
terminal of the shunt is connected to live. The live out will be
connected to the right terminal of the shunt.

Function Description

Name

Mains connector for module power and voltage

SCK1

sense

Optional current transformer connector.

JP2

(Underneath shunt resistor)

Optional Stepper motor connector. (Remove jumper

JP3

J6 to disconnect impulse counter)

Table 2: Connector descriptions

Live In

Neutral

SPEC-0088 (REV. 1)

Figure 1: Connection and jumper settings for 80A / 220V bi-directional meter module

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Live Out

08-11-00

PM2002DP

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MODULE SETUP

The PM2002DP module is setup for use with the SA2002D integrated circuit. Resistor values used on the module are calculated for
rated conditions of 80A/220V.

Vdd

Vss

J11

Vdd

Vss

J12

Vdd

Vss

J13

Vdd

Vss

J14

Vdd

Vss

J15

Name Function Description

J1

J1 is used to select the energy direction ( DIRI pin). The three options available are:

P18 should not be left floating and must be connected to one of the options described above.

P4

P5

P6

P7

P8

P9

P10

IIN

IIP

Vref

R2

R1

SA2002D

R0

FAST

Vdd

CNF

NC

J3

AGND

IVP

DIRI

DIRO

NC

MON

Vss

LED

MOP

NC

P18

P17

P16

P15

P14

P13

P12

P11

J4

Vdd

Vss

J1

JP3

1
2

Figure 2: Jumper schematic, digital IO’s

P18 connected to Vdd - Negative energy measurement
P18 connected to Vss - Positive energy measurement
P18 connected to J2 (P17) - Bi-directional energy measurement

J2

Vss

J6

6 5 4 3 2 1 . 1

J2

J3 and J4

J5

J6

J7

J8

J9

J11, J12
and J13

J14

J15

J16

J2 is only used to select bi-directional energy measurement when connected to P18

These are test points placed next to the digital pins of the SA2002E

Not fitted This is the current sense input ground. If a current transformer is used for current sensing the two
pins of J5 must be connected.

Connects the impulse to VSS. If a stepper motor is connected to JP3 then J6 should be left open.

Analog ground test point (see figure 1)

Positive supply test point (Vdd) (see figure 1)

Negative supply test point (Vss) (see figure 1)

Used to select the R2, R1 and R0 pins of the SA2002D for the various rated conditions. Refer to table 1 for the
possible settings

Used to select fast calibration mode. Connecting P7 to Vdd selects fast calibration mode. For normal operation
P7 must be connected to Vss

Used to select between normal and configure / test modes. For normal operation connect P9 to Vss.

Used to select between 220V and 110V mains systems (See figure 3). Leave open for 220V mains.

Table 3: Jumper settings for various device options

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PM2002DP

ANALOG SECTION

The analog (metering) interface described in this section is
designed for measuring 220V/80A with precision better than
Class 1.

The most important external components for the SA2002D
integrated circuit are the current sense resistors, the voltage
sense resistors and the bias setting resistor. The resistors
used in the metering section should be of the same type so
temperature effects are minimized.

Voltage Input IVP

The voltage input of the SA2002D (IVP) is driven with a current
of 14µA at nominal mains voltage. This voltage input saturates
at approximately 17µA. At a nominal voltage current of 14µA
allows for 20% overdriving. The mains voltage is divided with a
voltage divider to 14V that is fed to the voltage input pins via a
1MW resistor

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Standard resistor values of R1, R2, R3 and R15 are chosen to
be 47kW, 150kW, 47kW and 150kW. The resistor RA is divided
so that the voltage drop across one resistor is within the
specified limits of the resistor type that is used, usually
200VDC. The resistor value ratios are chosen so that shorting
J16 the module could be used on a 110VAC mains system.

CURRENT SENSOR INPUT RESISTORS FIGURE 4 (USING
A SHUNT RESISTOR)

The resistors R6, R7 define the current level into the current
sense inputs the device. The voltage drop across the shunt
should be at least 20mV at rated conditions. A shunt resistor
with a value of 50mV @80A was chosen for the application
module for its ease of use. The resistor values are calculated
for an input current of 16µA on the current inputs at rated
conditions. For a 80A meter the resistor values are calculated
as follows:

Voltage Divider

The voltage divider is (Figure 3) calculated for a voltage drop of
14V. Treat C7 as a short circuit and ignore J16. Equations for
the voltage divider in figure 3 are:

RB = R1 + R2 + R3 + R15 + R10
RB = R12 || ( R11 + P1 / 2)

Combining the two equations gives:

(RA + RB) / 220V = RB / 14V

Values for resistors R10 = 47W, R11 = 22kW, P1=10kW and
R12 = 1MW is chosen.

Substituting the values result in:

RB = 26.29kW
RA = RB x (220V / 14V - 1)
RA = 386.84kW

NEUTRAL

R1 R2 R3R10

R6 = R7 = (I / 16µA) x R / 2

L SH

= 80A / 16µA x 625uW / 2
= 1.5625kW

I Line current

L =

A standard value of 1.6kW is chosen.

LIVE IN

L

R14

LIVE OUT

Figure 4: Current input configuration

J16

R15

R11

C7

R6

R7

R12

LIVE IN

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P1

Figure 3: Mains voltage divider

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PM2002DP

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CT TERMINATION RESISTOR

Provision is made for the use of a current transformer on the
module. The existing shunt needs to be removed and the
current sense resistors will have to be recalculated for the
specific current transformer. The voltage drop across the CT
termination resistor at rated current should be at least 20mV.
The CT's used should have a low phase shift and a ratio of
1:2500.The CT is terminated with a 2.7W resistor giving a
voltage drop of 864mV across the termination resistor at rated
conditions

CURRENT SENSOR INPUT RESISTORS FIGURE 5 (USING
A CURRENT TRANSFORMER)

The resistors R6, R7 define the current level into the current
sense inputs the device. The resistor values are selected for
an input current of 16µA on the current inputs at rated
conditions. For an 80A-rated meter the resistor values are
calculated as follows:

R6 = R7 = (I / 16µA) x R / 2

L SH

= 80A / 16µA x 2.7W / 2
= 2.7kW

I Line current

L =

RSH = CT Termination resistor
2500 = CT ratio

Phase Compensation (When using a current transformer)

Phase shift caused by the current transformer may be
corrected by inserting a capacitor in the voltage divider circuit.
See Figure 6, Capacitor C7. To compensate for a phase shift of

0.18 degrees the capacitor value is calculated as follows:

C = 1 / (2 x p x Mains frequency x R5 x tan (Phase shift angle))
C = 1 / (2 x p x 50 x 1M x tan( 0.18 degrees))
C = 1.013µF

Reference Voltage VREF

The VREF pin of the SA2002D is connected to a resistor that
determines the on chip bias current.

Ground GND

The GND pin of the SA2002D is to the live phase, which is
halfway between VDD and VSS. Note that supply bypass
capacitors C1 and C2 are positioned as close as possible to the
supply pins of the device, and connected to a solid ground
plane.

L

CT1

LIVE IN

LIVE OUT

IIN

R16

IIP

Figure 5: Current input configuration

J5

R6

R7

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PM2002DP

COMPONENT LISTS

The following component list covers all components fitted on the PM2002DP module as shipped

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Symbol

U1
D1, D2
D3, D4
R1, R3

R2, R15
R4, R5
R6, R7
R8, R9
R10
R11
R12
R13
R14
R16

P1
C1, C2

C3, C4
C5
C6
C7
C8

LED1, LED2
CNT1
SCK1
JP3
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Description

SA2002D
Diode, Silicon, 1N4007
Diode, Zener, 2.4V
Resistor, 47k, 1/4W, 1%, metal
Resistor, 150k, 1/4W, 1%, metal
Resistor, 100R, 1/4W, 1%, metal
Resistor, 1.6k, 1/4W, 1%, metal
Resistor, 2.4k, 1/4W, 1%, metal
Resistor, 47R, 2W, 5%, wire wound
Resistor, 22k, 1/4W, 1%, metal
Resistor, 1M, 1/4W, 1%, metal
Resistor, 24k, 1/4W, 1%, metal
Shunt resistor, 80A / 50mV
Resistor, 1/4W, 1%, metal
Resistor, 1/4W, 1%, metal

Capacitor, 220nF
Capacitor, 220nF, 16V, electrolytic

Capacitor, 470nF, 250VAC
Capacitor, 820nF
Capacitor

Capacitor, 2200uF, 16V, electrolytic
3mm Light emitting diode

Impulse counter, Kuebler, K07.80

Molex 3 pin connector, 200mil pin spacing

Molex 2 pin connector, 100mil pin spacing
Jumpers
Header pins

Detail

DIP-20

Note 1

Note 1

Note 2

Note1: In case a current transformer is used on the board R16 is the termination resistor. Resistors R6 and R7 values may need to be

changed to match the CT used.

Note2: Capacitor values may be selected to compensate for phase errors caused by current transformers.

Table 4: Components for PM200DP module set up for 220V/80A

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PM2002DP

NEUTRAL

SCK1

1
2

LIVE IN

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J8

N

R10

L

C5

R1 R2 R3

MM

D1

D2

R4

C3

+

C4

+

R5

VDD

R15

VSS

C2

J7

P1

C8

+

C1

R11

D3

D4

J9

NEUTRAL

LIVE OUT

VDD

VSS

R12

C7

JP3

J1

J2

R9

VSS

R8

J6

1
2

LED1

LED2

.1123456

VDD

CNT1

A

R14

SA

IIN

SB

IIP

VDD

B

R13

C6

LO

VSS

J11

J12

VDD

J13

R6

VSS

R7

P4

P5

P6

P7

VDD

P10 P11

J15

J14

1

2

3

4

5

6

7

8

9

P9

10

U1

IIN

IIP

VREF

R2

R1

R0

FAST

VDD

CNF

NC NC

J16

GND

IVP

DIRI

DIRO

MON

VSS

LED

MOP

NC

20

19

18

P18

17

P17

16

P16

15

P15

14

13

P13

12

P12

11

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Figure 6: Schematic diagram of the complete PM2002DP module

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PM2002DP

PCB LAYOUT

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Figure 7: Top layer layout of the PM2002D module

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Figure 8: Bottom layer layout of the PM2002D module

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PM2002DP

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Figure 9: Silkscreen of the PM2002D module

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PM9607AP

PM2002DP

NOTE:

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PM9607AP

PM2002DP

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DISCLAIMER:

The information contained in this document is confidential and proprietary to South African Micro-Electronic Systems (Pty) Ltd
("SAMES") and may not be copied or disclosed to a third party, in whole or in part, without the express written consent of SAMES.
The information contained herein is current as of the date of publication; however, delivery of this document shall not under any
circumstances create any implication that the information contained herein is correct as of any time subsequent to such date.
SAMES does not undertake to inform any recipient of this document of any changes in the information contained herein, and
SAMES expressly reserves the right to make changes in such information, without notification, even if such changes would render
information contained herein inaccurate or incomplete. SAMES makes no representation or warranty that any circuit designed by
reference to the information contained herein, will function without errors and as intended by the designer.

Any sales or technical questions may be posted to our e-mail address below:

For the latest updates on datasheets, please visit our web site:

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