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PBM3960N Schematic ( PDF Datasheet ) - Ericsson

Teilenummer PBM3960N
Beschreibung Microstepping Controller/Dual Digital-to-Analog Converter
Hersteller Ericsson
Logo Ericsson Logo 




Gesamt 10 Seiten
PBM3960N Datasheet, Funktion
February 1999
PBM 3960/1
Microstepping Controller/
Dual Digital-to-Analog Converter
Description
PBM 3960/1 is a dual 7-bit+sign, Digital-to-Analog Converter (DAC) especially
developed to be used together with the PBL 3771/1, Precision Stepper Motor driver
in micro-stepping applications. The circuit has a set of input registers connected to an
8-bit data port for easy interfacing directly to a microprocessor. Two registers are
used to store the data for each seven-bit DAC, the eighth bit being a sign bit (sign/
magnitude coding). A second set of registers are used for automatic fast/slow current
decay control in conjunction with the PBL 3771/1, a feature that greatly improves
high-speed micro-stepping performance. The PBM 3960/1 is fabricated in a high-
speed CMOS process.
Key Features
• Analog control voltages from 3 V
down to 0.0 V.
• High-speed microprocessor interface.
• Automatic fast/slow current decay
control.
• Full-scale error ±1 LSB.
• Interfaces directly with TTL levels and
CMOS devices.
• Fast conversion speed, 3 µs.
• Matches PBL 3771.
WR
CS
A0
A1
D7 - D0
RESET
VDD
VRef
POR
DA- Data 1
E
C
D
E1 R
Level 1
E
E2
C
D
R
Level 2
E3 E
C
D
E4 R
DA- Data 2
E
C
D
R
R
Digit
Comp
E1 E
C
D
R
Digit
Comp
E4
C
E
D
R
Vss
PBM 3960/1
Sign 1
D/A
CD1
DA 1
D/A
DA 2
CD2
Sign 2
Figure 1. Block Diagram.
22-pin plastic DIP
28-pin plastic PLCC






PBM3960N Datasheet, Funktion
PBM 3960/1
Where (D6 … D0) is the new value being
sent to DA-Data1 and (Q61 … Q01) is DA-
Data1’s old value. (L61 … L41) are the
three bits for setting the current decay
level at LEVEL1.
The logic definition of CD2 is analog to
CD1:
CD2 = NOT{[(D6 … D0) < (Q62 … Q02)]
AND[(D …D ) < (L … L )]}
64
62 42
I2 [mA]
I
I1 [mA]
Figure 8a. Assuming that torque is
proportional to the current in resp.
winding it is possible to draw figure 8b.
Where (L62 … L42) is the level pro-
grammed in channel 2’s level register.
(D6 … D0) and (Q62 … Q02) are the new
and old values of DA-Data2.
The two level registers, LEVEL1 and
LEVEL2, consist of three flip flops each
and they are compared against the
three most significant bits of the DA-
Data value, sign bit excluded.
DA1 and DA2
These are the two outputs of DAC1 and
DAC2. Input to the DACs are internal
data bus (Q61 … Q01) and (Q62 … Q02).
Reference Voltage VRef
VRef is the analog input for the two
DACs. Special care in layout, gives a
very low voltage drop from pin to
resistor. Any VRef between 0.0 V and VDD
can be applied, but output might be non-
linear above 3.0 V.
Power-on Reset
This function automatically resets all
internal flip flops at power-on. This
results in VSS voltage at both DAC
outputs and all digital outputs.
T max
T2 [mNm]
Tnom
Tmin
DA output [V]
Current dragging
CD t
T1 [mNm]
Figure 8b. An example of accessible
positions with a given torque deviation/
fullstep. Note that 1:st µstep sets highest
resolution. Data points are exaggerated
for illustration purpose.
TNom = code 127.
Time
Figure 9. Motor current dragging at high
step rates and current decay influence.
Fast current decay will make it possible
for the current to follow the ideal sine
curve. Output shown without sign shift.
CS A0 A1 Data Transfer
0 0 0 D7 —> Sign1, (D6—D0) —> (Q61—Q01), New value —> CD1
0 01
(D6—D4) —> (L61—L41)
0 1 0 D7 —> Sign2, (D6—D0) —> (Q62—Q02), New value —> CD2
0 11
(D6—D4) —> (L62—L42)
1 X X No Transfer
Figure 10. Table showing how data is transfered inside PBM 3960/1.
Reset
If Reset is not used, leave it disconnec-
ted. Reset can be used to measure
leakage currents from VDD.
Applications Information
How Many Microsteps?
The number of true microsteps that can
be obtained depends upon many
different variables, such as the number
of data bits in the Digital-to-Analog
converter, errors in the converter,
acceptable torque ripple, single- or
double-pulse programming, the motor’s
electrical, mechanical and magnetic
characteristics, etc. Many limits can be
found in the motor’s ability to perform
properly; overcome friction, repeatability,
torque linearity, etc. It is important to
realize that the number of current levels,
128 (27), is not the number of steps
available. 128 is the number of current
levels (reference voltage levels)
available from each driver stage.
Combining a current level in one winding
with any of 128 other current levels in
the other winding will make up 128
current levels. So expanding this, it is
possible to get 16,384 (128 • 128)
combinations of different current levels in
the two windings. Remember that these
16,384 micro-positions are not all useful,
the torque will vary from 100% to 0%
and some of the options will make up the
same position. For instance, if the
current level in one winding is OFF (0%)
you can still vary the current in the other
winding in 128 levels. All of these
combinations will give you the same
position but a varying torque.
Typical Application
The microstepper solution can be used
in a system with or without a micro-
processor.
Without a microprocessor, a counter
addresses a ROM where appropriate
step data is stored. Step and Direction
are the input signals which represent
clock and up / down of counter. This is
the ideal solution for a system where
there is no microprocessor or it is heavily
loaded with other tasks.
With a microprocessor, data is stored
in ROM / RAM area or each step is
successively calculated. PBM 3960/1 is
connected like any peripheral addressa-
ble device. All parts of stepping can be
tailored for specific damping needs etc.
6

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