PCA9532BS ,16-bit I2C-bus LED dimmerapplications.The PCA9532 contains an internal oscillator with two user programmable blink rates and ..
PCA9532PW ,16-bit I2C-bus LED dimmerFEATURESThe initial set-up sequence programs the two blink rates/duty cycles• 16 LED drivers (on, o ..
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PEMB1 ,PNP resistor-equipped transistors R1 = 22kOhm/R2 = 22kOhmLIMITING VALUESIn accordance with the Absolute Maximum Rating System (IEC 60134).SYMBOL PARAMETER C ..
PEMB13 ,PNP/PNP resistor-equipped transistors; R1 = 4.7 k惟, R2 = 47 k惟
PEMB18 ,PEMB18; PUMB18; PNP/PNP resistor-equipped transistors; R1 = 4.7 kOhm, R2 = 10 kOhmapplications1.4 Quick reference dataTable 2: Quick reference dataSymbol Parameter Conditions Min Ty ..
PEMB19 ,PNP/PNP resistor-equipped transistors; R1 = 22 kOhm, R2 = openapplications1.4 Quick reference dataTable 2: Quick reference dataSymbol Parameter Conditions Min Ty ..
PEMB3 ,PNP resistor-equipped double transistor R1 = 4.7 kOhm, R2 = openLIMITING VALUESIn accordance with the Absolute Maximum Rating System (IEC 60134).SYMBOL PARAMETER C ..
PEMB30 ,PNP/PNP double resistor-equipped transistors; R1 = 2.2 kOhm, R2 = openApplicationsn Low current peripheral driver n Cost-saving alternative for BC857BSand BC857BVn Contr ..
PCA9532BS
16-bit I2C-bus LED dimmer
General descriptionThe PCA9532isa 16-bitI2 C-bus and SMBus I/O expander optimizedfor dimming LEDsin
256 discrete steps for Red/Green/Blue (RGB) color mixing and back light applications.
The PCA9532 contains an internal oscillator with two user programmable blink rates and
duty cycles coupled to the output PWM. The LED brightness is controlled by setting the
blink rate high enough(> 100 Hz) that the blinking cannotbe seen and then using the duty
cycle to vary the amount of time the LED is on and thus the average current through the
LED.
The initial setup sequence programs the two blink rates/duty cycles for each individual
PWM. From then on, only one command from the bus masteris requiredto turn individual
LEDs ON, OFF, BLINK RATE 1 or BLINK RATE 2. Based on the programmed frequency
and duty cycle, BLINK RATE 1 and BLINK RATE 2 will cause the LEDs to appear at a
different brightness or blink at periods up to 1.69 second. The open-drain outputs directly
drive the LEDs with maximum output sink current of 25 mA per bit and 200 mA per
package (100 mA per octal).
To blink LEDs at periods greater than 1.69 second the bus master (MCU, MPU, DSP,
chip set, etc.) must send repeated commands to turn the LED on and off as is currently
done when using normal I/O expanders like the NXP Semiconductors PCF8575 or
PCA9555. Any bits not used for controlling the LEDs can be used for General Purpose
parallel Input/Output (GPIO) expansion, which providesa simple solution when additional
I/O is needed for ACPI power switches, sensors, push-buttons, alarm monitoring, fans,
etc.
The active LOW hardware reset pin (RESET) and Power-On Reset (POR) initializes the
registers to their default state, all zeroes, causing the bits to be set HIGH (LED off).
Three hardware address pinson the PCA9532 allow eight devicesto operateon the same
bus.
Features 16 LED drivers (on, off, flashing at a programmable rate) Two selectable, fully programmable blink rates (frequency and duty cycle) between
0.591 Hz and 152 Hz (1.69 second and 6.58 milliseconds) 256 brightness steps Input/outputs not used as LED drivers can be used as regular GPIOs Internal oscillator requires no external componentsI2 C-bus interface logic compatible with SMBus Internal power-on reset
PCA9532
16-bit I2 C-bus LED dimmer
Rev. 04 — 17 March 2009 Product data sheet
NXP Semiconductors PCA9532
16-bit I2 C-bus LED dimmer Noise filter on SCL/SDA inputs Active LOW reset input 16 open-drain outputs directly drive LEDs to 25 mA Controlled edge rates to minimize ground bounce No glitch on power-up Supports hot insertion Low standby current Operating power supply voltage range of 2.3 V to 5.5V0 Hz to 400 kHz clock frequency ESD protection exceeds 2000 V HBM per JESD22-A114, 150 V MM per
JESD22-A115 and 1000 V CDM per JESD22-C101 Latch-up testing is done to JEDEC Standard JESD78 which exceeds 100 mA Packages offered: SO24, TSSOP24, HVQFN24
Ordering information Block diagram
Table 1. Ordering informationTamb= −40°Cto +85 °C.
PCA9532D PCA9532D SO24 plastic small outline package; 24 leads; body width 7.5 mm SOT137-1
PCA9532PW PCA9532 TSSOP24 plastic thin shrink small outline package; 24 leads;
body width 4.4 mm
SOT355-1
PCA9532BS 9532 HVQFN24 plastic thermal enhanced very thin quad flat package; no leads; terminals; body4×4× 0.85 mm
SOT616-1
NXP Semiconductors PCA9532
16-bit I2 C-bus LED dimmer Pinning information
5.1 Pinning
NXP Semiconductors PCA9532
16-bit I2 C-bus LED dimmer
5.2 Pin description[1] HVQFN24 package die supply ground is connected to both VSS pin and exposed center pad. VSS pin must
be connected to supply ground for proper device operation. For enhanced thermal, electrical, and board
level performance, the exposed pad needs to be soldered to the board using a corresponding thermal padthe board andfor proper heat conduction throughthe board, thermal vias needtobe incorporatedinthe
PCB in the thermal pad region.
Table 2. Pin description 1 22 address input 0 2 23 address input 1 3 24 address input 2
LED0 4 1 LED driver 0
LED1 5 2 LED driver 1
LED2 6 3 LED driver 2
LED3 7 4 LED driver 3
LED4 8 5 LED driver 4
LED5 9 6 LED driver 5
LED6 10 7 LED driver 6
LED7 11 8 LED driver 7
VSS 12 9[1] supply ground
LED8 13 10 LED driver 8
LED9 14 11 LED driver 9
LED10 15 12 LED driver 10
LED11 16 13 LED driver 11
LED12 17 14 LED driver 12
LED13 18 15 LED driver 13
LED14 19 16 LED driver 14
LED15 20 17 LED driver 15
RESET 21 18 reset input (active LOW)
SCL 22 19 serial clock line
SDA 23 20 serial data line
VDD 24 21 supply voltage
NXP Semiconductors PCA9532
16-bit I2 C-bus LED dimmer Functional descriptionRefer to Figure 1 “Block diagram of PCA9532”.
6.1 Device addressFollowing a START condition, the bus master must output the address of the slave it is
accessing. The address of the PCA9532 is shown in Figure 5. To conserve power, no
internal pull-up resistors are incorporated on the hardware selectable address pins and
they must be pulled HIGH or LOW.
The lastbitof the address byte defines the operationtobe performed. When setto logic1
a read is selected, while a logic 0 selects a write operation.
6.2 Control registerFollowing the successful acknowledgementof the slave address, the bus master will send
a byte to the PCA9532, which will be stored in the Control register.
The lowest 4 bits are used as a pointer to determine which register will be accessed.
If the Auto-Increment (AI) flag is set, the four low order bits of the Control register are
automatically incremented after a read or write. This allows the user to program the
registers sequentially. The contents of these bits will rollover to ‘0000’ after the last
register is accessed.
When Auto-Increment flag is set (AI= 1) and a read sequence is initiated, the sequence
must start by reading a register different from the INPUT0 register
(B3 B2 B1 B0≠ 0000).
Only the 4 least significant bits are affected by the AI flag. Unused bits must be
programmed with zeroes.
NXP Semiconductors PCA9532
16-bit I2 C-bus LED dimmer
6.2.1 Control register definition
6.3 Register descriptions
6.3.1 INPUT0 - Input register 0The INPUT0 register reflects the state of the device pins (inputs 0 to 7). Writes to this
register will be acknowledged but will have no effect.
Remark: The default value‘X’is determinedby the externally applied logic level (normally
logic 1) when used for directly driving LED with pull-up to VDD.
6.3.2 INPUT1 - Input register 1The INPUT1 register reflects the state of the device pins (inputs 8 to 15). Writes to this
register will be acknowledged but will have no effect.
Remark: The default value‘X’is determinedby the externally applied logic level (normally
logic 1) when used for directly driving LED with pull-up to VDD.
Table 3. Register summary0000 INPUT0 read only input register 0
0001 INPUT1 read only input register 1
0010 PSC0 read/write frequency prescaler 0
0011 PWM0 read/write PWM register 0
0100 PSC1 read/write frequency prescaler 1
0101 PWM1 read/write PWM register 1
0110LS0 read/write LED0 to LED3 selector
0111LS1 read/write LED4 to LED7 selector
1000LS2 read/write LED8 to LED11 selector
1001LS3 read/write LED12 to LED15 selector
Table 4. INPUT0 - Input register 0 description
Table 5. INPUT1 - Input register 1 description
NXP Semiconductors PCA9532
16-bit I2 C-bus LED dimmer
6.3.3 PCS0 - Frequency Prescaler0PSC0 is used to program the period of the PWM output.
The period of BLINK0= (PSC0+1)/ 152.
6.3.4 PWM0 - Pulse Width Modulation0The PWM0 register determines the duty cycleof BLINK0. The outputs are LOW (LED on)
when the count is less than the value in PWM0 and HIGH (LED off) when it is greater. If
PWM0 is programmed with 00h, then the PWM0 output is always HIGH (LED off).
The duty cycle of BLINK0= PWM0/ 256.
6.3.5 PCS1 - Frequency Prescaler1PSC1 is used to program the period of the PWM output.
The period of BLINK1= (PSC1+1)/ 152.
6.3.6 PWM1 - Pulse Width Modulation1The PWM1 register determines the duty cycleof BLINK1. The outputs are LOW (LED on)
when the count is less than the value in PWM1 and HIGH (LED off) when it is greater. If
PWM1 is programmed with 00h, then the PWM1 output is always HIGH (LED off).
The duty cycle of BLINK1= PWM1/ 256.
Table 6. PSC0 - Frequency Prescaler 0 register description
Table 7. PWM0 - Pulse Width Modulation 0 register description
Table 8. PSC1 - Frequency Prescaler 1 register description
Table 9. PWM1 - Pulse Width Modulation 1 register description
NXP Semiconductors PCA9532
16-bit I2 C-bus LED dimmer
6.3.7 LS0 to LS3 - LED selector registersThe LSn LED selector registers determine the source of the LED data.= output is set high-impedance (LED off; default)= output is set LOW (LED on)= output blinks at PWM0 rate= output blinks at PWM1 rate
Table 10. LS0 to LS3 - LED selector registers bit descriptionLegend: * default value.
LS0 - LED0 to LED3 selectorLS0 7:6 00* LED3 selected
5:4 00* LED2 selected
3:2 00* LED1 selected
1:0 00* LED0 selected
LS1 - LED4 to LED7 selectorLS1 7:6 00* LED7 selected
5:4 00* LED6 selected
3:2 00* LED5 selected
1:0 00* LED4 selected
LS2 - LED8 to LED11 selectorLS2 7:6 00* LED11 selected
5:4 00* LED10 selected
3:2 00* LED9 selected
1:0 00* LED8 selected
LS3 - LED12 to LED15 selectorLS3 7:6 00* LED15 selected
5:4 00* LED14 selected
3:2 00* LED13 selected
1:0 00* LED12 selected
NXP Semiconductors PCA9532
16-bit I2 C-bus LED dimmer
6.4 Pins used as GPIOsLEDn pins not used to control LEDs can be used as General Purpose I/Os (GPIOs).
For use as input, set LEDn to high-impedance (00) and then read the pin state via the
INPUT0 or INPUT1 register.
For use as output, connect external pull-up resistor to the pin and size it according to the
DC recommended operating characteristics. LEDn output pin is HIGH when the output is
programmedas high-impedance, and LOW when the outputis programmed LOW through
the ‘LED selector’ register. The output can be pulse-width controlled when PWM0 or
PWM1 are used.
6.5 Power-on resetWhen power is applied to VDD, an internal Power-On Reset (POR) holds the PCA9532 in reset condition until VDD has reached VPOR.At that point, the reset conditionis released
and the PCA9532 registers are initialized to their default states, all the outputs in the
OFF state. Thereafter, VDD must be lowered below 0.2 V to reset the device.
6.6 External RESET reset canbe accomplishedby holding the RESET pin LOWfora minimumof tw(rst). The
PCA9532 registers and I2 C-bus state machine will be held in their default states until the
RESET input is once again HIGH.
This input requires a pull-up resistor to VDD if no active connection is used.
NXP Semiconductors PCA9532
16-bit I2 C-bus LED dimmer Characteristics of the I2 C-busTheI2 C-busisfor 2-way, 2-line communication between different ICsor modules. The two
lines are a serial data line (SDA) and a serial clock line (SCL). Both lines must be
connected to a positive supply via a pull-up resistor when connected to the output stages
of a device. Data transfer may be initiated only when the bus is not busy.
7.1 Bit transferOne databitis transferred during each clock pulse. The dataon the SDA line must remain
stable during the HIGH period of the clock pulse as changes in the data line at this time
will be interpreted as control signals (see Figure7).
7.1.1 START and STOP conditionsBoth data and clock lines remain HIGH when the bus is not busy. A HIGH-to-LOW
transition of the data line while the clock is HIGH is defined as the START condition (S). LOW-to-HIGH transitionof the data line while the clockis HIGHis definedas the STOP
condition (P) (see Figure 8).
7.2 System configurationA device generating a message is a ‘transmitter’; a device receiving is the ‘receiver’. The
device that controls the message is the ‘master’ and the devices which are controlled by
the master are the ‘slaves’ (see Figure 9).
NXP Semiconductors PCA9532
16-bit I2 C-bus LED dimmer
7.3 AcknowledgeThe number of data bytes transferred between the START and the STOP conditions from
transmitter to receiver is not limited. Each byte of eight bits is followed by one
acknowledge bit. The acknowledge bit is a HIGH level put on the bus by the transmitter,
whereas the master generates an extra acknowledge related clock pulse. slave receiver whichis addressed must generatean acknowledge after the receptionof
each byte. Also a master must generate an acknowledge after the reception of each byte
that has been clocked out of the slave transmitter. The device that acknowledges has to
pull down the SDA line during the acknowledge clock pulse,so that the SDA lineis stable
LOW during the HIGH period of the acknowledge related clock pulse; set-up and hold
times must be taken into account.
A master receiver must signal an end of data to the transmitter by not generating an
acknowledge on the last byte that has been clocked out of the slave. In this event, the
transmitter must leave the data line HIGH to enable the master to generate a STOP
condition.
NXP Semiconductors PCA9532
16-bit I2 C-bus LED dimmer
7.4 Bus transactions
NXP Semiconductors PCA9532
16-bit I2 C-bus LED dimmer Application design-in information
8.1 Minimizing IDD when the I/Os are used to control LEDsWhen the I/Os are used to control LEDs, they are normally connected to VDD through a
resistor as shown in Figure 14. Since the LED acts as a diode, when the LED is off the
I/O VI is about 1.2 V less than VDD. The supply current, IDD, increases as VI becomes
lower than VDD and is specified as ΔIDD in Table 13 “Static characteristics”.
Designs needing to minimize current consumption, such as battery power applications,
should consider maintaining the I/O pins greater thanor equalto VDD when the LEDis off.
Figure 15 shows a high value resistor in parallel with the LED. Figure 16 shows VDD less
than the LED supply voltage by at least 1.2 V. Both of these methods maintain the I/OVI
at or above VDD and prevents additional supply current consumption when the LED is off.
NXP Semiconductors PCA9532
16-bit I2 C-bus LED dimmer
8.2 Programming exampleThe following example will show how to set LED0 to LED3 on. It will then set LED4 and
LED5 to blink at 1 Hz at a 50 % duty cycle. LED6 and LED7 will be set to be dimmed at % of their maximum brightness (duty cycle=25 %). LED8 to LED15 will be set to off.
Table 11. Programming PCA9532START S
PCA9532 address with A0toA2= LOW C0h
PSC0 subaddress + Auto-Increment 12h
Set prescaler PSC0 to achieve a period of 1 second:
PSC0= 151
97h
Set PWM0 duty cycle to 50%:
PWM0= 128
80h
Set prescaler PCS1 to dim at maximum frequency:
PSC1=0
00h
Set PWM1 output duty cycle to 25%:
PWM1=64
40h
Set LED0 to LED3 on 55h
Set LED4 and LED5 to PWM0, and LED6 or LED7 to PWM1 FAh
Set LED8 to LED11 off 00h
Set LED12 to LED15 off 00h
STOP P
Blink period 1 PSC0 1+
152------------------------==
PWM0
256----------------- 0.5=
Blink period max=
PWM1
256----------------- 0.25=
NXP Semiconductors PCA9532
16-bit I2 C-bus LED dimmer Limiting values
Table 12. Limiting valuesIn accordance with the Absolute Maximum Rating System (IEC 60134).
VDD supply voltage −0.5 +6.0 V
VI/O voltage on an input/output pin VSS− 0.5 5.5 V
IO(LEDn) output current on pin LEDn - ±25 mA
ISS ground supply current - 200 mA
Ptot total power dissipation - 400 mW
Tstg storage temperature −65 +150 °C
Tamb ambient temperature operating −40 +85 °C
