Digital Multi-Phase Buck Controller
CHL8203/12/13/14
FEATURES
Dual output 2/3/4+1-phase PWM Controller
(CHL8212/13/14) and single output 3-phase PWM
Controller (CHL8203)
Easiest layout and fewest pins in the industry
Footprint compatible with CHL8225 (CHL8213/14)
for analog and power signals
Up to 3 VID select lines for dynamic voltage
transitions
Slow OCP for Thermal Design Current (TDC)
protection
Programmable I
CRITICAL
signal
I2C interface for configuration & telemetry
Pin programmable I2C address (CHL8203/13/14)
Overclocking support with I2C voltage override and
Vmax setting
Flexible I2C bus security features
I2C security enable pin (CHL8203/13/14)
Independent loop switching frequencies from 200kHz
to 1.2MHz per phase
IR Efficiency Shaping with Dynamic Phase Control
(DPC)
1-phase & Active Diode Emulation modes for light
load efficiency
IR Adaptive Transient Algorithm (ATA) on both loops
minimizes output bulk capacitors and system cost
Per-Loop Fault Protection: OVP, UVP, OCP
Thermal Protection (OTP) and VRHOT# flag
(CHL8203/13/14)
Multiple time programmable (MTP) memory for
custom configuration
Compatible with IR ATL and 3.3V tri-state Drivers
3.3V +10%/-15% supply voltage; 0ºC to 85ºC
operation
Pb-Free, RoHS, QFN packages
DESCRIPTION
The CHL8212/13/14 are dual-loop digital multi-phase
buck controllers and the CHL8203 is a single-loop digital
multiphase buck controller designed for GPU voltage
regulation. Dynamic voltage control is provided by
registers which are programmed through I2C and then
selected using a 3-bit parallel bus for fast access.
The CHL8203/12/13/14 include IR Efficiency Shaping
Technology to deliver exceptional efficiency at minimum
cost across the entire load range. IR Dynamic Phase
Control adds/drops active phases based upon load current
and can be configured to enter 1-phase operation and
diode emulation mode automatically or by command.
IR’s unique Adaptive Transient Algorithm (ATA), based on
proprietary non-linear digital PWM algorithms, minimizes
output bulk capacitors and Multiple Time Programmable
(MTP) storage saves pins and enables a small package size.
Device configuration and fault parameters are easily
defined using the IR Digital Power Design Center (DPDC)
GUI and stored in on-chip MTP.
The CHL8203/12/13/14 provides extensive OVP, UVP, OCP
and OTP fault protection and the CHL8203/13/14 includes
thermistor based temperature sensing with VRHOT signal.
The CHL8203/12/13/14 includes numerous features like
register diagnostics for fast design cycles and platform
differentiation, truly simplifying VRD design and enabling
fastest time-to-market (TTM) with “set-and-forget”
methodology.
PIN DIAGRAM
IRTN4
1
/NC
2
ISEN4
1
/NC
2
IRTN 1
ISEN 1
IRTN 2
ISEN 2
IRTN 3
40
RCSP
RCSM
VPGM2
VSEN
VRTN
RRES
TSEN1
1
2
3
4
5
6
7
8
9
10
11
VINSEN
1
2
39
38
37
36
35
ISEN 3
34
33
32
31
30
29
28
27
RCSP_L2
RCSM_L2
VCC
VSEN_L2
VRTN_L2
PWM_L2
PWM4
1
/NC
2
PWM3
PWM2
PWM1
CHL8213/4
40 Pin 6x6 QFN
Top View
ISEN_L2
IRTN_L2
26
25
24
23
APPLICATIONS
Multi-phase GPU Systems
GDDR Memory
V18A
VRRDY1
VRRDY2
CHL8214
CHL8213
22
41
GND
21
12
VIDSEL2
13
VIDSEL1
14
VIDSEL0
15
VR_HOT#
16
ENABLE
17
ADDR/PROT/EN_L2
18
SMB_DAT
19
SMB_CLK
20
TSEN2
Figure 1: CHL8213/14 Package Top View
1
August 28, 2013 | FINAL | V1.6
京公网安备 11010802033920号
EEWORLD
