TB62213AFTG
BiCD Integrated Circuit Silicon Monolithic
TB62213AFTG
PHASE-in controlled Bipolar Stepping Motor Driver IC
The TB62213AFTG is a two-phase bipolar stepping motor driver using
a PWM chopper. Fabricated with the BiCD process, the TB62213AFTG
is rated at 40 V/3.0 A . The on-chip voltage regulator allows control of
a stepping motor with a single VM power supply.
Features
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Capable of controlling 1 bipolar stepping motor.
BiCD process integrated monolithic IC.
PWM controlled constant-current drive.
Allows Full Step, Half Step and 1/4 Step excitations.
Output stage low on resistance by a BiCD process
QFN48-P-0707-0.50
Weight: 0.14g(Typ.)
High voltage and current (For specification, please refer to absolute maximum ratings and operation ranges)
Built-in error detection circuits
(Thermal shutdown (TSD),over-current shutdown (ISD), and power-on reset (POR))
Built-in VCC regulator for internal circuit use. Therefore it's possible to operate only by a VM power supply.
Chopping frequency of a motor can be customized by external resistance and condenser.
High-speed Chopping by more than 100 kHz is possible.
Packages: QFN48-P-0707-0.50
Note) Please be careful about
thermal conditions during use.
©2014 TOSHIBA CORPORATION
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2014-12-27
TB62213AFTG
Pin Assignment
(Top View)
OUT_B+
OUT_B+
RS_B
RS_B
VCC
VM
NC
NC
NC
NC
36 35 34
NC
NC
NC
GND
VREF_B
VREF_A
OSCM
IN_A1
37
38
39
40
41
42
43
44
NC
33
32
31 30 29 28
27 26 25
24
23
22
21
20
NC
NC
GND
OUT_B-
OUT_B-
GND
GND
OUT_A-
OUT_A-
GND
NC
NC
NC
19
18
17
16
15
14
13
NC
TB62213AFTG
IN_A2 45
PHASE_A 46
PHASE_B 47
NC 48
1
NC
2
IN_B1
3
IN_B2
4
STANDBY
5
GND
6
NC
7
RS_A
8
RS_A
9 10
OUT_A+
NC
11 12
OUT_A+
©2014 TOSHIBA CORPORATION
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TB62213AFTG
Block Diagram
IN_A1
IN_A2
PHASE_A
IN_B1
IN_B2
PHASE_B
STANDBY
Current Level Set
Step Decoder
(Input Logic)
VMR Detect
VCC Voltage
Regulator
VCC
Chopper OSC
OSCM
OSC
VREF
Torque Control
2bit D/A
(Angle Control)
CR-CLK
Converter
Current Feedback (×2)
VM
V
RS
1
R
S
COMP1
RS
V
RS
2
R
S
COMP2
Output Control
(Mixed Decay Control)
STANDBY
Output
(H-Bridge×2)
VM
ISD
VMR
Detect
TSD
Detection Circuit
Stepping Motor
Functional blocks/circuits/constants in the block chart etc. may be omitted or simplified for explanatory purposes.
Note
All the grounding wires of this product must run on the solder within the mask of the PCM. It must also be
externally terminated at a single point. Also, the grounding method should be considered for efficient heat
dissipation.
Careful attention should be paid to the layout of the output, VM and GND traces, to avoid short circuits across
output pins or to the power supply or ground. If such a short circuit occurs, the IC may be permanently
damaged.Also, the utmost care should be taken for pattern designing and implementation of the IC since it has
power supply pins (VM, RS, OUT, GND) through which a particularly large current may run. If these pins are
wired incorrectly, an operation error may occur or this IC may be destroyed.
The logic input pins must be correctly wired, too. Otherwise, the IC may be damaged owing to a current running
through the IC that is larger than the specified current.
©2014 TOSHIBA CORPORATION
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2014-12-27
TB62213AFTG
Pin Function
Pin No.1-28
Pin No.
1
2
3
4
5
6
7
8
9
10
11
12
13
14
15
16
17
18
19
20
21
22
23
24
25
26
27
28
Pin name
NC
IN_B1
IN_B2
STANDBY
GND
NC
RS_A(Note1)
RS_A(Note1)
NC
OUT_A+ (Note1)
OUT_A+ (Note1)
NC
NC
NC
GND
OUT_A- (Note1)
OUT_A- (Note1)
GND
GND
OUT_B- (Note1)
OUT_B- (Note1)
GND
NC
NC
NC
OUT_B+ (Note1)
OUT_B+ (Note1)
NC
Non-connection pin
Motor Bch excitation control input pin
Motor Bch excitation control input pin
All-function-initializing and Low power dissipation mode set pin
Ground pin
Non-connection pin
Motor Ach current sense pin
Motor Ach current sense pin
Non-connection pin
Motor Ach (+) output pin
Motor Ach (+) output pin
Non-connection pin
Non-connection pin
Non-connection pin
Ground pin
Motor Ach (-) output pin
Motor Ach (-) output pin
Ground pin
Ground pin
Motor Bch (-) output pin
Motor Bch (-) output pin
Ground pin
Non-connection pin
Non-connection pin
Non-connection pin
Motor Bch (+) output pin
Motor Bch (+) output pin
Non-connection pin
Function
Please use the pin of NC with Open.
Note1:
Please connect the pins with the same names, at the nearest point of the device.
©2014 TOSHIBA CORPORATION
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2014-12-27
TB62213AFTG
Pin No.29-48
Pin No.
29
30
31
32
33
34
35
36
37
38
39
40
41
42
43
44
45
46
47
48
Pin name
RS_B (Note1)
RS_B (Note1)
NC
VM
NC
VCC
NC
NC
NC
NC
NC
GND
VREF_B
VREF_A
OSCM
IN_A1
IN_A2
PHASE_A
PHASE_B
NC
Motor Bch current sense pin
Motor Bch current sense pin
Non-connection pin
Motor power supply pin
Non-connection pin
Internal VCC regulator monitor pin
Non-connection pin
Non-connection pin
Non-connection pin
Non-connection pin
Non-connection pin
Ground pin
Motor Bch output set pin
Motor Ach output set pin
Oscillating circuit frequency for chopping set pin
Motor Ach excitation control input pin
Motor Ach excitation control input pin
Ach motor current direction signal input pin
Bch motor current direction signal input pin
Non-connection pin
Function
Please use the pin of NC with Open.
Note1:
Please connect the pins with the same names, at the nearest point of the device.
©2014 TOSHIBA CORPORATION
5
2014-12-27
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