TI1 DV2004ES1 Fast-charge development system Datasheet

DV2004S1/ES1/HS1
Fast-Charge Development System
Control of On-Board P-FET
Switch-Mode Regulator
Features
ä
bq2004/E/H fast charge control evaluation and
development
ä
Charge current sourced from an on-board
switch-mode regulator (up to 3.0 A)
ä
Fast charge of 4 to 10 NiCd or NiMH cells and one
user-defined selection
ä
Fast charge termination by delta temperature/delta
time (∆T/∆t), negative delta voltage (-∆V) or peak
voltage detect, maximum temperature, maximum
time, and maximum voltage
ä
-∆V/peak voltage detect, hold-off, top-off, maximum
time, and number of cells are jumper-configurable
ä
Programmable charge status display
ä
Discharge-before-charge control with push-button
switch or auto discharge-before-charge with jumper
ä
Inhibit fast charge by logic-level input
General Description
The DV2004S1/ES1/HS1 Development System provides
a development environment for the bq2004/E/H Fast
Charge IC. The DV2004S1/ES1/HS1 incorporates a
bq2004/E/H and a buck-type switch-mode regulator to
provide fast charge control for 4 to 10 NiCd or NiMH
cells.
Connection Descriptions
The fast charge is terminated by any of the following:
∆T/∆t, -∆V or peak voltage detect, maximum temperature, maximum time, maximum voltage, and inhibit
command. Jumper settings select the voltage termination mode, the hold-off, top-off, and maximum time limits, and automatic discharge-before-charge.
J1
The user provides a power supply and batteries. The user
configures the DV2004S1/ES1/HS1 for the number of
cells, voltage, charge termination mode, and maximum
charge time (with or without top-off), and commands discharge-before-charge with push-button switch S1.
THERM
Thermistor connection
SNS
tor
Negative battery terminal and thermisconnection
Please review the bq2004/E/H data sheet before using
the DV2004S1/ES1/HS1 board.
SLUU016A - 3/99 revised 8/2002
BAT+
Positive battery terminal and high side
of discharge load
LOAD
Low side of discharge load
GND
Ground from charger supply
DC
DC input from charger supply
Rev. C Board
1
DV2004S1/ES1/HS1
JP1 INH
Inhibit input
JP2 DSEL
Display select
JP3 VSEL
Voltage termination select
JP4 TM1
TM1 setting
JP5 TM2
TM2 setting
JP6 NOC
Select number of cells
JP7
Auto discharge-before-charge select
JP8
Auto cycle select
Table 1. Lookup Table for D5 Selection
+VDC Input
(Volts)
Motorola
Part No.
Nominal Zener
Voltage
Below 15
Shorted
0
15–18
1N749
4.3
18–21
1N755
7.5
21–24
1N758
10
24–27
1N964A
13
27–30
1N966A
16
30–32
1N967A
18
32–35
1N968A
20
Note:
Capacitors C2 and C3 must be changed from
those shipped with the board for input
voltage in excess of 24V.
Fixed Configuration
The DV2004S1/ES1/HS1 board has the following fixed characteristics:
LED1 and LED2 indicate charge status.
With the provided NTC thermistor connected between
THERM and SNS, values are: LTF = 0°C, HTF = 40°C,
and TCO = 60°C. The ∆T/∆t settings at 30°C (T∆T) are:
minimum = 0.82°C/minute, typical = 1.10°C/minute.
LED3 can replace LED1 and LED2 and provide an optional tri-color LED feature.
The thermistor is identified by the serial number suffix
as follows:
VCC (4.75–5.25V) is regulated on-board from the supply
at connector J1 DC.
Charge initiates on the later application of the battery
or DC, which provides VCC to the bq2004/E/H.
Identifier
Thermistor
Pin DCMD may be tied to ground through JP7 for automatic discharge-before-charge. With JP7 open, a toggle
of switch S1 momentarily pulls DCMD low and initiates
a discharge-before-charge. The bq2004E output activates
FET Q1, allowing current to flow through an external
current-limiting load between BAT+ and LOAD on connector J1.
K1
Keystone RL0703-5744-103-S1
(blank)
Philips 2322-640-63103
F1
Fenwal Type 16, 197-103LA6-A01
O1
Ozhumi 150-108-00(4)
S1
Semetic 103AT-2
As shipped from Benchmarq, the DV2004S1/ES1/HS1
buck-type switch-mode regulator is configured to a
charging current of 2.25A. This current level is controlled by the value of sense resistor RSNS by the relationship:
I CHG =
Jumper-Selectable Configuration
The DV2004S1/ES1/HS1 must be configured as described below.
0.225V
R SNS
The value of RSNS at shipment is 0.100Ω. This resistor
can be changed depending on the application.
Jumper Setting
Pin State
[12]3
1[23]
Disabled (high)
Enabled (low)
INH (JP1): Enables/disables charge inhibit (see
bq2004/E/H data sheet).
Th e
su g g e s te d
m ax i m um
ICHG
f or
the
DV2004S1/ES1/HS1 board is 3A. The maximum cell
voltage (MCV) setting is 1.8V.
Zener diode D5 is used to limit Q4 VGS per a given
DC voltage. The board is shipped with D5 shorted. The
user can modify this Zener diode for the application. Refer to Table 1 for suggested D5 values for DC voltages.
Rev. C Board
2
Jumper Setting
Pin State
[12]3
1[23]
123
High
Low
Float
DV2004S1/ES1/HS1
AUTO CYCLE SELECT (JP8): Jumping JP8 automatically initiates a continuous discharge-beforecharge/fast-charge cycling for data collection purposes.
TM1 and TM2 (JP4 and JP5): Select fast charge
safety time/hold-off/top-off (see bq2004/E/H data sheet).
Number of Cells (JP6): A resistor-divider network is
Closed Jumper
Number of Cells
RB25
RB24
RB23
RB22
RB21
RB20
User-selectable
10
8
6
5
4
Setup Procedure
1.
Configure VSEL, TM1, TM2, DSEL, INH, and
number-of-cells (NOC) jumpers.
2.
Connect the provided thermistor or a 10KΩ resistor
between THERM and SNS.
3.
provided to select 4 to 10 cells (the resulting resistor
value equals N 2 – 1 cells). RB1 is a 150KΩ resistor, and
RB2 (RB20–RB25) is jumper-selected.
If using the discharge-before-charge or auto-cycle
options, connect a current-limiting discharge load
between BAT+ and LOAD.
4.
Temperature Disable: Connecting a 10KΩ resistor between THERM and SNS disables temperature control.
Attach the battery pack to BAT+ and SNS. For temperature control, the thermistor must contact the
cells.
5.
Attach DC current source to DC (+) and GND (–)
connections in J1.
DSEL (JP2): Selects LED1 and LED2 (LED3 optional)
display state (see bq2004E data sheet, Table 2, page 5).
VSEL (JP3): Selects -∆V or peak-voltage detection, or
disables voltage-based termination (see bq2004E data
ssheet, page 7).
AUTO DIS SELECT (JP7): Jumping JP7 enables automatic discharge-before-charge.
Recommended DC Operating Conditions
Symbol
Description
Minimum
Typical
Maximum
Unit
IDC
Maximum input current
-
-
2.4
A
VDC
Maximum input voltage
2.0 + VBAT
or 15
-
18 + VBAT
or 35
V
VBAT
BAT input voltage
-
-
24
V
VTHERM
THERM input voltage
0
-
5
V
IDSCHG
Discharge load current
-
-
2
A
Note:
Notes
Note 1
1. The VDC+ limits consider the appropriate Zener diode at D5. The voltage at D5 is application-specific
and limits the VGS of Q4 to a safe enhancement value during Q4 conduction. See Table 1 for recommended D5 selections per VDC+.
Rev. C Board
3
DV2004S1/ES1/HS1
DV2004S1
2004s1.eps 3/4/99
Rev. C Board
4
DV2004S1/ES1/HS1
DV2004S1/ES1/HS1
5
6
D4
THERM
R13
SNS
D8
1N5400
BAT+
LOAD
GND
DC
C2
1N4001
2K
Q4
MTP23P06V
1000µF
35V
R12
Q3
U2
+5V
IN OUT
GND
C5
C3
100µF
6.3V
100µF
25V
1
2
3
INH
JP7
AUTO_DIS.
DSEL
JP3
VSEL
+5V
TM1
RT3
JP5
TM2
11.3K
1%
RT2
+5V
0.1µF
MTP3055VL
4
5
6
8
Q1
RB20
RB21
RB22
RB23
RB24
133K
1%
100K
1%
66.5K
1%
49.9K
1%
R9
200K
1%
100K
R4
1
2
3
26.1K JP8
1% AUTO_CYCLE
1
2
3
4
5
6
7
8
1
2
3
300K
R5
10K
1%
C7
0.1µF
12.7K
1%
DCMD INH
DSEL DIS
VSEL MOD
TM1
VCC
TM2
VSS
TCO LED2
TS
LED1
BAT SNS
2K
R1
1µF
bq2004/E/H
C8
0.2
1%
1000 pF
USER_DEF.
1%
Q2
R10
+5V
2N7000
0_OHM
R11
100K
C4
R6
1K
R7
0.1µF
2K
510K
R3
RSNS
RB25
D9
16
15
14
13
12
11
10
9
U1
C6
10
R8
1N751A
R2
C9
3.92K
1N4148
1
2
3
JP4
RT1
S1
DISCHARGE_CMD
1
2
1
2
3
JP2
JP6
NUMBER OF CELLS
D6
+5V
JP1
C1
1N5821 10µF
35V
2N3904
78L05ACZ
RB1
200K
1%
D7
6.8K
D5
1N4148
L1
100UH
12
10
8
6
4
2
1
2
3
4
11
9
7
5
3
1
J1
1K
GRN
RED
D1
D2
DONE
CHARGE
D3
GREEN
RED
BD-9623
1. Use semetec 103AT thermistor.
Rev. C Board
5
IMPORTANT NOTICE
Texas Instruments and its subsidiaries (TI) reserve the right to make changes to their products or to discontinue
any product or service without notice, and advise customers to obtain the latest version of relevant information
to verify, before placing orders, that information being relied on is current and complete. All products are sold
subject to the terms and conditions of sale supplied at the time of order acknowledgement, including those
pertaining to warranty, patent infringement, and limitation of liability.
TI warrants performance of its semiconductor products to the specifications applicable at the time of sale in
accordance with TI’s standard warranty. Testing and other quality control techniques are utilized to the extent
TI deems necessary to support this warranty. Specific testing of all parameters of each device is not necessarily
performed, except those mandated by government requirements.
CERTAIN APPLICATIONS USING SEMICONDUCTOR PRODUCTS MAY INVOLVE POTENTIAL RISKS OF
DEATH, PERSONAL INJURY, OR SEVERE PROPERTY OR ENVIRONMENTAL DAMAGE (“CRITICAL
APPLICATIONS”). TI SEMICONDUCTOR PRODUCTS ARE NOT DESIGNED, AUTHORIZED, OR
WARRANTED TO BE SUITABLE FOR USE IN LIFE-SUPPORT DEVICES OR SYSTEMS OR OTHER
CRITICAL APPLICATIONS. INCLUSION OF TI PRODUCTS IN SUCH APPLICATIONS IS UNDERSTOOD TO
BE FULLY AT THE CUSTOMER’S RISK.
In order to minimize risks associated with the customer’s applications, adequate design and operating
safeguards must be provided by the customer to minimize inherent or procedural hazards.
TI assumes no liability for applications assistance or customer product design. TI does not warrant or represent
that any license, either express or implied, is granted under any patent right, copyright, mask work right, or other
intellectual property right of TI covering or relating to any combination, machine, or process in which such
semiconductor products or services might be or are used. TI’s publication of information regarding any third
party’s products or services does not constitute TI’s approval, warranty or endorsement thereof.
Copyright  1999, Texas Instruments Incorporated
Mouser Electronics
Authorized Distributor
Click to View Pricing, Inventory, Delivery & Lifecycle Information:
Texas Instruments:
DV2004HS1 DV2004S1 DV2004ES1
Similar pages